Claims (5000)
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic long-length lens (2d) width increase to collect sunlight + vaporization evaporative force + gravity acceleration in vacuum add vertical downward acceleration, split clamp (80B 2.) Various energy storage cycle combined engines in which the power generation amount is increased by increasing the width of the clamping long lens (2d).
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。辞書
Theory Best Engine Hydropower Solar power Photovoltaic long lens (2d) to increase the width of the solar light collecting method + evaporation in the vacuum + force of gravity + acceleration of gravity add vertically downward, split and clamp (80B) Various energy storage cycle united engines provided with a plurality of tightening long lenses (2d) as a set to increase the amount of power generation. dictionary
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation long lens (2d) width increase and collect solar light + add evaporative explosion power + gravity acceleration in vacuum vertically accelerated downward, select manufacturing length from existing materials Various energy conservation cycle combined engines which made the lens (2d) long and made power generation increase method.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro aerodynamic power Solar power generating long lens (2d) to increase the width of solar light collecting method + add evaporative explosion power + gravitational acceleration in vacuum vertically accelerated downward, from the existing lens cross section Various energy conservation cycle combined engine which made the sunlight a water (52b) tube with a long lens (2d) and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro aerodynamic power Solar power method of increasing the width of the long lens (2d) to collect sunlight + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, in the part close to the vacuum A variety of energy storage cycle coalescing engines with a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at right angles.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Various energy storage cycle combined engines that increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, A variety of energy storage cycle coalescing engines, which are divided and provided with a plurality of lenses (2d) of tightening (80B) tightening as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Selected energy storage materials from existing materials A variety of energy storage cycle coalescing engines with a long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Various energy conservation cycle combined engines which made the sunlight a water (52b) tube with a method of increasing the amount of electric power generation from the existing lens cross section to the selected section long lens (2d).
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Various energy storage cycle combined engines that increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, A variety of energy storage cycle coalescing engines, which are divided and provided with a plurality of lenses (2d) of tightening (80B) tightening as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Selected energy storage materials from existing materials A variety of energy storage cycle coalescing engines with a long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Various energy conservation cycle combined engines which made the sunlight a water (52b) tube with a method of increasing the amount of electric power generation from the existing lens cross section to the selected section long lens (2d).
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), thereby increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward, and divided into various fasteners (80B) and a plurality of long lenses (2d) for tightening.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward and selected from existing materials. A manufacturing length lens (2d) is made longer to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward, and various energy storage cycle combined engines are used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube by selecting sunlight with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and solar light at right angles in the part close to vacuum, and various energy conservation cycle combined engines were used to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Various energy conservation cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + the gravitational acceleration vertically downward. .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) Increase the power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) by accelerating the compression heat recovery + evaporation vaporization power + gravitational acceleration vertically downward in (1 G) + vacuum How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy storage cycle united engines with a method of increasing power generation capacity by increasing width.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward to divide, and provide multiple long lenses (2d) of clamp (80B) clamp as a set to generate electricity Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy conservation cycle united engines which were provided with 2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle united engines provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum A variety of energy storage cycle combining engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and accelerating the selected material from existing materials and making a long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) Various heat preservation cycle combination which made the power generation amount increase method by lengthening the selection production long lens (2d) by adding vertically downward heat of vaporization heat + gravity acceleration in compression heat recovery + vacuum in (1G) organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat heat water (52b) with heat of air (28b) + add vaporization power + gravity acceleration vertically in vacuum + accelerate vertically downward to make power generation increase method by making the selected lens (2d) longer from existing materials Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) + fuel injection and burn it + add the vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Various energy storage cycles combined by increasing the amount of power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding the vaporization explosion power + gravitational acceleration in the vertical direction organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section long lens (2 d) Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle united engines using a method of increasing the amount of concentrated power generation to a pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Various energy storage cycles were used to increase power generation by maintaining the adiabatic long lens (2d) and the solar light in the vicinity of a right angle by accelerating the vaporization explosion power + gravity acceleration in the vertical direction and adding vertically downward. Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in vacuum, vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight in the vicinity of a right angle in the part close to the vacuum Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum A variety of energy storage cycle coalescing engines were used to maintain power generation near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle The various energy storage cycle coalescing engines were used to maintain the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Various energy storage cycle combined engine with power generation method to accelerate vertically downward in the vaporization explosion power + gravity acceleration added.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) Various energy storage cycles combined engine with power generation method to add compression heat recovery + vaporization explosion power + gravity acceleration in vacuum in + heat recovery + vacuum.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Various energy storage cycle combined engine with power generation method of heating water (52b) with compressed water heat exchanger (2Y) + vaporization explosion power + gravity acceleration in vacuum + vertically downward.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Various energy storage cycle combined engines with power generation method that heats water (52b) with heat of air (28b) + vaporization and explosion power + gravity acceleration in vacuum + acceleration vertically downward.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b B) Heat the water (52b) + fuel injection and combustion + add vaporization and explosion power + gravitational acceleration in vacuum in a power generation method to accelerate vertically downward Various energy storage cycle combined engines.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, Various energy storage cycle combined engines that increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, A variety of energy storage cycle coalescing engines, which are divided and provided with a plurality of lenses (2d) of tightening (80B) tightening as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, Selected energy storage materials from existing materials A variety of energy storage cycle coalescing engines with a long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, Various energy conservation cycle combined engines which made the sunlight a water (52b) tube with a method of increasing the amount of electric power generation from the existing lens cross section to the selected section long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Add vertical acceleration downwards, split clamp (80B) clamps the length of the long lens (2d) to increase the power generation amount of various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Add various kinds of energy storage cycle combining engines by accelerating vertically downward, dividing and installing multiple long lenses (2d) of tightening (80B) tightening as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Add vertical acceleration vertically downwards, select from existing materials and manufacture long lenses (2d) as a method to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Add various kinds of energy storage cycle combining engine with a method of increasing the amount of concentrated power generation to the water (52b) tube by adding sunlight vertically downward from the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Add vertical acceleration downward and keep the adiabatic long lens (2d) and solar light in the vicinity of a right angle in the part close to vacuum, and use various energy storage cycle coalescence engines as a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically Various energy storage cycle combined engines that accelerate downward and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically A variety of energy storage cycle coalescing engines, which are accelerated downward and divided into multiple fasteners (80B) and provided with a plurality of long lenses (2d) for tightening.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically A variety of energy storage cycle coalescing engines that accelerate downward and make the length of the selected lens from the existing materials (2d) large enough to generate more electricity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically A variety of energy storage cycle coalescing engines, which accelerate downward and use sunlight from the existing lens cross section to the water (52b) tube by means of the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum by accelerating downward.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Add vertical acceleration downwards, split clamp (80B) clamps the length of the long lens (2d) to increase the power generation amount of various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Add various kinds of energy storage cycle combining engines by accelerating vertically downward, dividing and installing multiple long lenses (2d) of tightening (80B) tightening as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Add vertical acceleration vertically downwards, select from existing materials and manufacture long lenses (2d) as a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Add various kinds of energy storage cycle combining engine with a method of increasing the amount of concentrated power generation to the water (52b) tube by adding sunlight vertically downward from the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Add vertical acceleration downward and keep the adiabatic long lens (2d) and solar light in the vicinity of a right angle in the part close to vacuum, and use various energy storage cycle coalescence engines as a method to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, Various energy storage cycle combined engines that increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, A variety of energy storage cycle coalescing engines, which are divided and provided with a plurality of lenses (2d) of tightening (80B) tightening as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, Selected energy storage materials from existing materials A variety of energy storage cycle coalescing engines with a long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, Various energy conservation cycle combined engines which made the sunlight a water (52b) tube with a method of increasing the amount of electric power generation from the existing lens cross section to the selected section long lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Piping Equipment Method + Storage Battery Drive Various Motor Vehicles Plus + Vaporization Explosive Force + Gravity Acceleration in Vacuum Additional Vertical Downward Acceleration, Split Fastening Tool (80B) Various energy storage cycle united engines having a method of increasing the power generation amount by increasing the width of the tightening long lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles Plus + Evaporative Explosive Force + Gravity Acceleration in Vacuum Accelerate vertically downward, divide and clamp A variety of energy storage cycle coalescing engines, in which a set of multiple long lenses (2d) for attachment (80B) tightening is provided to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles Plus + Vaporization Explosive Force + Gravity Acceleration in Vacuum Accelerate vertically downward and select from existing materials Various energy storage cycle combined engines with long production lens length (2d) and increased power generation method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles Plus + Evaporative Explosive Force + Gravity Acceleration in Vacuum Add Vertically Downward Acceleration, from Existing Lens Cross Section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various automobiles to make + + evaporative explosion power + gravity acceleration added in vacuum vertically accelerated downward and approached vacuum A variety of energy storage cycle coalescing engines with a method of increasing power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the part.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Various energy conservation cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + the gravitational acceleration vertically downward. .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum A variety of energy storage cycle combining engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and accelerating the selected material from existing materials and making a long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Various energy storage cycles combined by increasing the amount of power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding the vaporization explosion power + gravitational acceleration in the vertical direction organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Various energy storage cycles were used to increase power generation by maintaining the adiabatic long lens (2d) and the solar light in the vicinity of a right angle by accelerating the vaporization explosion power + gravity acceleration in the vertical direction and adding vertically downward. Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by adding the detonation force + gravitational acceleration and vertically downward downward.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Various energy storage cycle coalescing engines were designed to increase power generation capacity by adding explosive power + gravitational acceleration vertically downward and dividing it into multiple fasteners (80B) and fastening multiple long lenses (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Various energy conservation cycle combined engines that add power and gravity acceleration and accelerate vertically downward and make the selected lens from existing materials long (2d) to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Various energy conservation cycle combined engines that add concentrated sunlight to the water (52b) tube by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the explosive power + gravitational acceleration vertically downward.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Various energy storage cycle coalescing engines were designed to increase power generation by adding explosive power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Various energy conservation cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + the gravitational acceleration vertically downward. .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater A variety of energy storage cycle combining engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and accelerating the selected material from existing materials and making a long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Various energy storage cycles combined by increasing the amount of power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding the vaporization explosion power + gravitational acceleration in the vertical direction organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Various energy storage cycles were used to increase power generation by maintaining the adiabatic long lens (2d) and the solar light in the vicinity of a right angle by accelerating the vaporization explosion power + gravity acceleration in the vertical direction and adding vertically downward. Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum The various energy storage cycle combined engines were designed to increase power generation capacity by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by adding vertically downward and accelerating the divided clamp (80B).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum A variety of energy storage cycle coalescing engines are provided with a set of multiple long lenses (2d), which are divided and tightened by clamping (80B) by accelerating vertically downward.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum The various energy conservation cycle combined engines which made the power generation amount increase method by lengthening the selection production long lens (2d) from the existing material by accelerating vertically downward additionally.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Various energy storage cycle coalescing engines have a method of increasing the amount of concentrated power generation to a water (52b) tube by accelerating sunlight downward with an addition lens section and a selected section lens (2d) from the existing lens section.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Additional energy storage cycle combined engine with a method to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating vertically downward and approaching the vacuum.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Various energy storage cycle combined engines that accelerate and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward A variety of energy storage cycle coalescing engines have been developed by providing a set of multiple lenses (2d), which are divided into separate clamps and clamps (80B) and tightened.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward A variety of energy storage cycle coalescing engines, which accelerate and select power from existing materials and lengthen the power lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Various energy storage cycle coalescing engines that accelerate and add sunlight to the water (52b) tube from the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum by accelerating.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Heat recovery + vaporization evaporative force + gravitational acceleration added vertically downward to accelerate the split clamp (80B) tightening and increase the width of the long lens (2d) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and tightening multiple lenses (2d) as a set to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative detonation power + add gravity acceleration in a vacuum Accelerate vertically downwards, select from existing materials and make long lenses (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Vaporization explosive force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Heat recovery + vaporization evaporative explosion power + additional gravity acceleration in the vacuum vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically downward in vacuum, and divided into various fasteners (80B) and multiple tightening lenses (2d) for tightening. Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Various energy conservation cycle combined engines with a method of increasing the amount of power generation by lengthening large lenses (2d) selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward, from the existing lens section to the selected section length lens (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat recovery + vaporization evaporative force + gravitational acceleration added vertically downward to accelerate the split clamp (80B) tightening and increase the width of the long lens (2d) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and tightening multiple lenses (2d) as a set to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation power + add gravity acceleration in a vacuum Accelerate vertically downwards, select from existing materials and make long lenses (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Vaporization explosive force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat recovery + vaporization evaporative explosion power + additional gravity acceleration in the vacuum vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by adding the detonation force + gravitational acceleration and vertically downward downward.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Various energy storage cycle coalescing engines were designed to increase power generation capacity by adding explosive power + gravitational acceleration vertically downward and dividing it into multiple fasteners (80B) and fastening multiple long lenses (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Various energy conservation cycle combined engines that add power and gravity acceleration and accelerate vertically downward and make the selected lens from existing materials long (2d) to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Various energy conservation cycle combined engines that add concentrated sunlight to the water (52b) tube by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the explosive power + gravitational acceleration vertically downward.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Various energy storage cycle coalescing engines were designed to increase power generation by adding explosive power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity The various energy storage cycle combined engines were designed to increase the power generation amount by increasing the width of the long lens (2d) by increasing the acceleration vertically downward and increasing the width of the long lens (2d) by tightening the split clamp (80B).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity The acceleration is accelerated vertically downward, and divided into various fasteners (80B) and a plurality of long lenses (2d) for fastening.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Various energy conservation cycle combined engines that add acceleration vertically downward and accelerate from the existing materials and make the production length lens (2d) longer and larger the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Various energy storage cycle coalescing engines, which add acceleration to the vertical direction vertically and accelerate sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity The acceleration is accelerated vertically downward, and the adiabatic long lens (2d) and the solar light are maintained in the vicinity of a right angle in the part brought close to the vacuum, and various energy storage cycle coalescing engines were used to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum vertically accelerated downward from existing materials to make the selected lens (2d) longer and to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy conservation cycle united engines which were provided to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat recovery (compressive heat recovery) + evaporation in a vacuum using a heat pump (1G), acceleration of gravity acceleration is added vertically downward, and various materials are used to increase the amount of power generation by making the selected lens (2d) longer from existing materials Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum vertically accelerated downward from existing materials to make the selected lens (2d) longer and to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) The compression heat recovery + vaporization explosion power + gravity acceleration is added vertically in vacuum and accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and provide multiple length lenses (2d) of clamp (80B) clamp as a set to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Various heat preservation cycle combined engine with power generation amount increase method by compression heat recovery + vaporization explosion power + addition of gravity acceleration in vacuum vertically accelerated downward from existing materials and selected long lens (2d) made long.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) With compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum, vertically accelerated downward, from the existing lens cross section to the selected cross section long lens (2d) to increase sunlight to a water (52b) tube Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Evaporative detonation power + add gravity acceleration in a vacuum Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Various kinds of energy storage cycles were made by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically increasing the vaporization explosion power + gravitational acceleration downward in + vacuum. Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Various energy is used to increase the amount of power generation by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing it and dividing vertically by adding the vaporization explosion power + gravitational acceleration vertically downward in + vacuum. Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Various energy storage cycle combined engines with a method to increase power generation capacity by increasing the vaporization explosion power + gravity acceleration in a vacuum and accelerating vertically downward to make the selected lens (2d) longer from the existing materials.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery Various energy conservation methods to increase the amount of concentrated electricity generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating it vertically downward by adding the vaporization explosion power + gravitational acceleration vertically in a + vacuum Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Various energy is added by accelerating the vaporization explosion power + gravity acceleration in the vacuum and accelerating vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to increase power generation Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2.) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerating the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration vertically in the internal air (28a) + vacuum and divide vertically to clamp the fastener (80B) A variety of energy storage cycle combined engines with a set of multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2.) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically, select long lens from existing material (2d) The various energy preservation cycle united engine which made the power generation amount increase method as a long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with internal water (28a) with a compressed water heat exchanger (2Y) + Add the vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select a lens of selected cross section from the existing lens cross section (2 d A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation to the sunlight in the water (52b) tube.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed water heat exchanger (2Y) + internal pressure (28a) + evaporative explosion power + add gravity acceleration in a vacuum + accelerate vertically downwards, adiabatic long lens near the vacuum (2d) and various energy conservation cycle united engines that maintain the sunlight at a right angle in the vicinity of the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy storage cycle united engines with a method of increasing power generation capacity by increasing width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy conservation cycle united engines which were provided with 2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle united engines using a method of increasing the amount of concentrated power generation to a pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum A variety of energy storage cycle coalescing engines were used to maintain power generation near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy conservation cycle combined engine which increased the width of 2d) and made power generation increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy storage cycle combined engines with long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy storage cycle coalescing engines that use light as a method to increase the amount of power generation into water (52b) pipes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle united engines which made the amount of power generation increase by maintaining sunlight at near right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum and divide vertically to divide and clamp multiple clamp lenses (2d) with clamp (80B) Various energy storage cycle united engines provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward from existing materials to make the selected lens (2d) longer to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with selected cross section lens (2 d) water (52 b) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to make the adiabatic long lens (2d) and sun light nearly perpendicular at the part close to vacuum The various energy storage cycle coalescing engines were used to maintain the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward from the existing material to make the selected lens long lens (2d) a method of increasing the amount of power generation Various energy storage cycles Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration in a vacuum + accelerate vertically downwards, split clamp (80B) tightening long lens ( Various energy conservation cycle combined engine which increased the width of 2d) and made power generation increase method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to divide and clamp multiple clamps (80B) Various energy storage cycle combined engines with long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) long from existing materials Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select the sun from the existing lens cross section by the selected cross section lens (2d) Various energy storage cycle coalescing engines that use light as a method to increase the amount of power generation into water (52b) pipes.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and adiabatic long lens (2d) in the part close to vacuum And various energy preservation cycle united engines which made the amount of power generation increase by maintaining sunlight at near right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle united engines provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat heat water (52b) with heat of air (28b) + add vaporization power + gravity acceleration vertically in vacuum + accelerate vertically downward to make power generation increase method by making the selected lens (2d) longer from existing materials Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle The various energy storage cycle coalescing engines were used to maintain the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy storage cycle united engines with a method of increasing power generation capacity by increasing width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation cycle united engines which were provided with 2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle united engines using a method of increasing the amount of concentrated power generation to a pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum A variety of energy storage cycle coalescing engines were used to maintain power generation near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and set the multiple clamp lenses (2d) of the clamp (80B) tightened as a set Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) 28b) Heat water (52b) in a vacuum + add a vaporization explosion power + gravitational acceleration vertically in a vacuum, accelerate vertically downward from existing materials, make selected lenses long (2d), and save various energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to concentrate the sunlight into the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Method of increasing power generation amount by increasing the width of the long lens (2d) by tightening the split clamp (80B) by heating (52b) under heating + vacuum and adding vaporizing explosive force + gravitational acceleration vertically downward Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Increase the power generation by heating (52b) in a heating + vacuum and adding the vaporization explosion power + gravitational acceleration vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamp. How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat (52b) Add various vaporization energy and gravity acceleration in heating + vacuum, accelerate vertically downward, and make selected electric lens from existing materials (2d) as a method to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Method of increasing the amount of concentrated power generation to the water (52b) tube by heating the selected lens 52d from the existing lens cross section by accelerating the vaporization explosion power + gravitational acceleration vertically downward in heating + vacuum And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat (52b) in the heating + vacuum, add the vaporization explosion power + gravity acceleration vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heating water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated down, split lens (80B) clamp long lens Various energy storage cycle united engines with a method of increasing power generation capacity by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and tighten clamp (80B) A variety of energy storage cycle coalescing engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) B) Heating water (52b) with compressed air heat (28b) + Fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make selected long lenses (2d) from existing materials long As a way to increase the amount of power generation and various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn with combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross section lens from existing lens cross section (2d) Various energy conservation cycle combined engine which made the sunlight a water (52b) pipe and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (2d) near the vacuum ) And various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the sunlight at a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) + fuel injection and burn it + add the vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Various energy storage cycle united engines were used to increase power generation and increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp Various energy storage cycle united engines, which are provided with (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle combined engines with water (52b) pipe as a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) Heating (52b) + fuel injection and combustion + vaporizing explosion power + gravitational acceleration is added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in a vacuum to accelerate vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy conservation cycle united engines which were provided to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection and burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward from existing materials Various energy using a method of increasing the power output by making the selected manufacturing long lens (2d) longer Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) Heating (52b) + fuel injection and burning + vaporization evaporative force + gravitational acceleration is added in vacuum and accelerated vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2 d) into a water (52 b) tube Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection combustion + vaporization evaporative force + gravity acceleration added in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + addition of vaporization explosion power + gravitational acceleration in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative explosion + gravity acceleration is added vertically in a vacuum, and divided vertically to provide a set of multiple long lenses (2d) for tightening (80B) tightening and generating power Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative force + gravity acceleration added in vacuum vertically accelerated downward from existing materials selected manufacturing long lens (2d) as a method of increasing power output .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative force + gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with the selected section long lens (2d) How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative force + gravity acceleration added in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the part near the vacuum to generate electricity Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Explosive Power Maximize + Add Vaporization Explosive Force + Gravity Acceleration in Vacuum + Accelerate Vertically Down from Existing Materials and Select Production Long Lens (2d) As a method of increasing power output with various energy storage cycle combined engines.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Increase the explosive power + add the vaporized explosive power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to increase sunlight from the existing lens section to the water (52b) tube with the selected section lens (2d) And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + vaporization and explosion force + addition of gravity acceleration in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) various energy Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase the amount of power generation by increasing the amount of generated power by increasing the amount of vaporization explosion power + gravity acceleration in the vacuum and accelerating vertically downward, dividing and tightening the clamp (80B) and tightening multiple lenses. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + add vaporization and explosion power + vacuum acceleration in vacuum vertically accelerated downward from the existing materials, select long lens (2d) manufactured from various materials, various energy storage cycle combined engine with power generation increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + increase vaporization and explosion power in vacuum + add acceleration vertically downward, and select sunlight from the existing lens cross section to the water (52b) tube with selected section length lens (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase the amount of generated electricity by maintaining the long lens (2d) of adiabatic and the solar light at a right angle near the vacuum by adding the vaporization explosion power and the gravitational acceleration in the vacuum and accelerating vertically downward. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Explosive Power Maximize + Add Vaporization Explosive Force + Gravity Acceleration in Vacuum + Accelerate Vertically Down from Existing Materials and Select Production Long Lens (2d) As a method of increasing power output with various energy storage cycle combined engines.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to increase sunlight from the existing lens section to the water (52b) tube with the selected section lens (2d) And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Various energy storage cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically adding the vaporization explosion power + gravitational acceleration downward.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Various energy storage cycle coalescing engines with additional power generation acceleration method by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing vertically to add vertically downward by adding vaporization explosion power + gravitational acceleration .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Various energy storage cycle combined engines with a method to increase the amount of power generation by extending the vaporization explosion power + gravity acceleration vertically downward and making the selected lens (2d) longer from the existing materials.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Various energy storage cycle combined engines that increase the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the vaporization explosion power + gravity acceleration vertically downward and using the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Various energy storage cycle coalescing engines were designed to increase power generation capacity by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the vacuum long lens (2 d) .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), thereby increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated vertically downward, and divided into various fasteners (80B) and a plurality of long lenses (2d) for tightening.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated vertically downward and selected from existing materials. A manufacturing length lens (2d) is made longer to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated vertically downward, and various energy storage cycle combined engines are used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube by selecting sunlight with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and solar light at right angles in the part close to vacuum, and various energy conservation cycle combined engines were used to increase power generation.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Various energy storage cycle combined engines that accelerate downward and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical A variety of energy storage cycle coalescing engines, which are accelerated downward and divided into multiple fasteners (80B) and provided with a plurality of long lenses (2d) for tightening.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical A variety of energy storage cycle coalescing engines that accelerate downward and make the length of the selected lens from the existing materials (2d) large enough to generate more electricity.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical A variety of energy storage cycle coalescing engines, which accelerate downward and use sunlight from the existing lens cross section to the water (52b) tube by means of the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum by accelerating downward.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Various energy storage cycle combined engines that accelerate downward and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical A variety of energy storage cycle coalescing engines, which are accelerated downward and divided into multiple fasteners (80B) and provided with a plurality of long lenses (2d) for tightening.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical A variety of energy storage cycle coalescing engines that accelerate downward and make the length of the selected lens from the existing materials (2d) large enough to generate more electricity.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical A variety of energy storage cycle coalescing engines, which accelerate downward and use sunlight from the existing lens cross section to the water (52b) tube by means of the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum by accelerating downward.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by adding the detonation force + gravitational acceleration and vertically downward downward.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Various energy storage cycle coalescing engines were designed to increase power generation capacity by adding explosive power + gravitational acceleration vertically downward and dividing it into multiple fasteners (80B) and fastening multiple long lenses (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Various energy conservation cycle combined engines that add power and gravity acceleration and accelerate vertically downward and make the selected lens from existing materials long (2d) to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Various energy conservation cycle combined engines that add concentrated sunlight to the water (52b) tube by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the explosive power + gravitational acceleration vertically downward.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Various energy storage cycle coalescing engines were designed to increase power generation by adding explosive power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy conservation cycle combined engine which increased the width of 2d) and made power generation increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy storage cycle united engines with a method of increasing power generation capacity by increasing width.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Various energy storage cycle united engines were used to increase power generation and increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically downward in vacuum, and divided into various fasteners (80B) and multiple tightening lenses (2d) for tightening. Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy conservation cycle united engines which were provided to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy storage cycle combined engines with long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation cycle united engines which were provided with 2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp Various energy storage cycle united engines, which are provided with (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Various energy conservation cycle combined engines with a method of increasing the amount of power generation by lengthening large lenses (2d) selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) Heat recovery (compressive heat recovery) + evaporation in a vacuum using a heat pump (1G), acceleration of gravity acceleration is added vertically downward, and various materials are used to increase the amount of power generation by making the selected lens (2d) longer from existing materials Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward, from the existing lens section to the selected section length lens (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy storage cycle coalescing engines that use light as a method to increase the amount of power generation into water (52b) pipes.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle united engines using a method of increasing the amount of concentrated power generation to a pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle combined engines with water (52b) pipe as a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle united engines which made the amount of power generation increase by maintaining sunlight at near right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum A variety of energy storage cycle coalescing engines were used to maintain power generation near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + addition of vaporization and explosion power + gravitational acceleration in vacuum A power generation method that accelerates vertically downward various energy storage cycle combined engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) A heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum and power generation method to accelerate vertically downward various energy storage cycle combined engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air (28a) Heats water (52b) with compressed water heat exchanger (2Y) + Adds vaporization explosion power + gravitational acceleration in vacuum + Adds vertical acceleration vertically downward Various energy storage cycle combined engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Various energy storage cycle combined engines with power generation method that heats water (52b) with compressed air heat of heat (28b) + adds vaporization explosion power + gravitational acceleration vertically in vacuum and accelerates vertically downward.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Various energy storage cycle combined engines with power generation method that heats water (52b) with heat quantity (28b) + fuel injection and burns + adds vaporization explosion power + gravitational acceleration in vacuum and accelerates vertically downward.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split fastener (80B) and various energy storage cycle combined engines.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is accelerated vertically downward, and divided into multiple fasteners (80B) and a plurality of long lenses (2d) for tightening.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is added vertically downward to accelerate vertically from the existing material, and the selected production long lens (2d) is made longer to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Various energy conservation cycle combined engines that increase the power + gravity acceleration vertically downward and make the sunlight (water tube 52b) tube the sunlight by water from the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is added to accelerate vertically downward, and a long lens (2d) of adiabatic part is kept close to a right angle in a part close to vacuum, and various energy conservation cycle combined engines are used to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), which is a method of increasing power generation Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Evaporative explosion power + gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Various energy storage cycle coalescing engines using a method of increasing the amount of power generation by increasing the vaporization explosion power + gravity acceleration vertically and accelerating vertically downward to make the selected long lens (2d) from existing materials longer.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add various kinds of methods to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating it vertically downward by adding the vaporization explosion power + gravitational acceleration vertically downward Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Evaporative explosion power + gravity acceleration was added in + vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Various energy storage cycles combined by increasing the width of the split lens (80B) and the length of the long lens (2d) by increasing the width of the split clamp (80B) by vertically increasing the vaporization explosion force + gravitational acceleration in a vacuum organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Evaporative explosion power + gravitational acceleration is accelerated vertically downward in a vacuum, and divided into multiple fasteners (80B) and a plurality of tightening lenses (2d) for energy storage. Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Various energy storage cycle combined engines with a method to increase the amount of power generation by lengthening large lenses (2d) selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Various energy storage cycles using a method of increasing the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the vaporization explosion power + gravitational acceleration vertically downward in a vacuum Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Evaporative explosion power + acceleration of gravity is additionally added vertically downward in a vacuum to keep the adiabatic long lens (2d) and sunlight at a right angle in the part brought close to the vacuum to save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), which is a method of increasing power generation Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Evaporative explosion power + gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Various energy storage cycle coalescing engines using a method of increasing the amount of power generation by increasing the vaporization explosion power + gravity acceleration vertically and accelerating vertically downward to make the selected long lens (2d) from existing materials longer.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add various kinds of methods to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating it vertically downward by adding the vaporization explosion power + gravitational acceleration vertically downward Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Evaporative explosion power + gravity acceleration was added in + vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by clamping the split fastener (80B) and tightening the various lenses.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward, and divided into various fasteners (80B) and a plurality of long lenses (2d) for fastening.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Add various kinds of energy storage cycle combining engine with additional gravity acceleration to accelerate vertically downward, and using existing materials to make long lenses (2d) to increase power output.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Add various kinds of energy storage cycle combining engines by adding gravity acceleration to accelerate vertically downward and increasing sunlight to water (52b) tube from existing lens cross section with selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Add gravity acceleration Accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle in the part brought close to vacuum to make the amount of power generation increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum The various energy storage cycle combined engines were designed to increase power generation capacity by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by adding vertically downward and accelerating the divided clamp (80B).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum A variety of energy storage cycle coalescing engines are provided with a set of multiple long lenses (2d), which are divided and tightened by clamping (80B) by accelerating vertically downward.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum The various energy conservation cycle combined engines which made the power generation amount increase method by lengthening the selection production long lens (2d) from the existing material by accelerating vertically downward additionally.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Various energy storage cycle coalescing engines have a method of increasing the amount of concentrated power generation to a water (52b) tube by accelerating sunlight downward with an addition lens section and a selected section lens (2d) from the existing lens section.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Additional energy storage cycle combined engine with a method to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating vertically downward and approaching the vacuum.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 A variety of methods to increase the amount of power generation by providing a set of multiple long lenses (2d) divided by tightening the clamp (80B) by dividing vertically and adding vertically downward in a vacuum + vaporization and explosion power + gravitational acceleration Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add various kinds of energy storage cycle combined engine with a method of increasing power generation amount by lengthening large lens (2d) selected from existing materials by adding vaporization explosion power + gravity acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Various types of energy to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward, adding the vaporization exploding force + gravitational acceleration vertically in + vacuum. Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, and keep the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to make various methods to increase power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Various energy conservation cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + the gravitational acceleration vertically downward. .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum A variety of energy storage cycle combining engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and accelerating the selected material from existing materials and making a long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Various energy storage cycles combined by increasing the amount of power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding the vaporization explosion power + gravitational acceleration in the vertical direction organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Various energy storage cycles were used to increase power generation by maintaining the adiabatic long lens (2d) and the solar light in the vicinity of a right angle by accelerating the vaporization explosion power + gravity acceleration in the vertical direction and adding vertically downward. Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 A variety of methods to increase the amount of power generation by providing a set of multiple long lenses (2d) divided by tightening the clamp (80B) by dividing vertically and adding vertically downward in a vacuum + vaporization and explosion power + gravitational acceleration Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add various kinds of energy storage cycle combined engine with a method of increasing power generation amount by lengthening large lens (2d) selected from existing materials by adding vaporization explosion power + gravity acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Various types of energy to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward, adding the vaporization exploding force + gravitational acceleration vertically in + vacuum. Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, and keep the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to make various methods to increase power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), thereby increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward, and divided into various fasteners (80B) and a plurality of long lenses (2d) for tightening.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward and selected from existing materials. A manufacturing length lens (2d) is made longer to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward, and various energy storage cycle combined engines are used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube by selecting sunlight with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and solar light at right angles in the part close to vacuum, and various energy conservation cycle combined engines were used to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Various energy storage cycle combined engines that accelerate vertically downward and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum A variety of energy storage cycle coalescing engines are provided with a plurality of lenses (2d), which are divided vertically into two parts, and they are divided and tightened by clamping (80B).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and make a long lens of a selected production long lens (2d) from existing materials.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum A variety of energy storage cycle coalescing engines that accelerate vertically downward and use sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum by accelerating vertically downwards.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Increase the amount of power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating the internal air in compression heat recovery + vacuum and vaporization explosion power + gravitational acceleration vertically downward. How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Generate internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide, divide and set multiple long lenses (2d) of clamp (80B) clamp to generate electricity Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 A variety of energy storage cycles combined as a method of increasing the amount of power generation by lengthening the selected lens (2d) from existing materials by accelerating the internal air into compression heat recovery + evaporation vaporization power + gravity acceleration vertically downward in vacuum organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air in compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Heat recovery + vaporization evaporative force + gravitational acceleration added vertically downward to accelerate the split clamp (80B) tightening and increase the width of the long lens (2d) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and tightening multiple lenses (2d) as a set to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative detonation power + add gravity acceleration in a vacuum Accelerate vertically downwards, select from existing materials and make long lenses (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Vaporization explosive force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Heat recovery + vaporization evaporative explosion power + additional gravity acceleration in the vacuum vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Increase the amount of power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating the internal air in compression heat recovery + vacuum and vaporization explosion power + gravitational acceleration vertically downward. How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Generate internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide, divide and set multiple long lenses (2d) of clamp (80B) clamp to generate electricity Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 A variety of energy storage cycles combined as a method of increasing the amount of power generation by lengthening the selected lens (2d) from existing materials by accelerating the internal air into compression heat recovery + evaporation vaporization power + gravity acceleration vertically downward in vacuum organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air in compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Various energy conservation cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + the gravitational acceleration vertically downward. .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum A variety of energy storage cycle combining engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and accelerating the selected material from existing materials and making a long lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Various energy storage cycles combined by increasing the amount of power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding the vaporization explosion power + gravitational acceleration in the vertical direction organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Various energy storage cycles were used to increase power generation by maintaining the adiabatic long lens (2d) and the solar light in the vicinity of a right angle by accelerating the vaporization explosion power + gravity acceleration in the vertical direction and adding vertically downward. Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split fastener (80B) and various energy storage cycle combined engines.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is accelerated vertically downward, and divided into multiple fasteners (80B) and a plurality of long lenses (2d) for tightening.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is added vertically downward to accelerate vertically from the existing material, and the selected production long lens (2d) is made longer to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Various energy conservation cycle combined engines that increase the power + gravity acceleration vertically downward and make the sunlight (water tube 52b) tube the sunlight by water from the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is added to accelerate vertically downward, and a long lens (2d) of adiabatic part is kept close to a right angle in a part close to vacuum, and various energy conservation cycle combined engines are used to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation force + gravitational acceleration under compression heat recovery + vacuum and accelerate vertically downward, and the split fastener (80B) clamp long lens (2d) Various energy storage cycle united engines were used to increase power generation and increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Multiple heats of internal air (28a) by heat pump (1G), compression heat recovery + vaporization and explosion power + additional gravity acceleration is added vertically downward to divide and clamp (80B) clamp Various energy storage cycle united engines, which are provided with (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + vacuum in a vacuum, add vaporization power + gravity acceleration vertically downward to make the selected lens from existing materials long enough to generate power Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + in a vacuum add vaporization power + gravitational acceleration accelerate vertically downward and select sunlight from cross section of existing lens with selected cross section lens (2d) Various energy storage cycle combined engines with water (52b) pipe as a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation power + gravitational acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and the sun at the part close to vacuum A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum vertically accelerated downward from existing materials to make the selected lens (2d) longer and to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation force + gravitational acceleration under compression heat recovery + vacuum and accelerate vertically downward, and the split fastener (80B) clamp long lens (2d) Various energy storage cycle united engines were used to increase power generation and increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Multiple heats of internal air (28a) by heat pump (1G), compression heat recovery + vaporization and explosion power + additional gravity acceleration is added vertically downward to divide and clamp (80B) clamp Various energy storage cycle united engines, which are provided with (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + vacuum in a vacuum, add vaporization power + gravity acceleration vertically downward to make the selected lens from existing materials long enough to generate power Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + in a vacuum add vaporization power + gravitational acceleration accelerate vertically downward and select sunlight from cross section of existing lens with selected cross section lens (2d) Various energy storage cycle combined engines with water (52b) pipe as a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation power + gravitational acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and the sun at the part close to vacuum A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) Increase the power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) by accelerating the compression heat recovery + evaporation vaporization power + gravitational acceleration vertically downward in (1 G) + vacuum How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward to divide, and provide multiple long lenses (2d) of clamp (80B) clamp as a set to generate electricity Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) Various heat preservation cycle combination which made the power generation amount increase method by lengthening the selection production long lens (2d) by adding vertically downward heat of vaporization heat + gravity acceleration in compression heat recovery + vacuum in (1G) organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section long lens (2 d) Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in vacuum, vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight in the vicinity of a right angle in the part close to the vacuum Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Various kinds of methods to increase the amount of power generation by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating vertically downward the vaporization heat and force plus the gravitational acceleration in compression and heat recovery + vacuum Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided into multiple tightening lenses (2B) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compression heat recovery + addition of vaporization and explosion power + gravity acceleration in vacuum Vertically accelerated downward from existing materials and selected production long lens (2d) as a method of increasing the amount of power generation Combined engine with various energy storage cycles.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + addition of vaporization and explosion power + gravitational acceleration in a vacuum are accelerated vertically downward to increase the amount of concentrated power generation to a water (52b) tube with sunlight from the existing lens cross section with a selected cross section lens (2d) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + addition of vaporization and explosion power + acceleration of gravity in vacuum vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) + internal pressure of the air (28b) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum to accelerate the split fastener (80B) Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the clamping long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the fastener ( 80B) Various energy storage cycle united engines provided with a plurality of clamping long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy storage cycle united engines with a method of increasing power generation by making (2d) longer.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal heat (28a) in the vacuum + add vaporizing explosion power + gravity acceleration in the vacuum vertically accelerating downward and heat insulation in the part close to the vacuum Various energy storage cycle combined engine which made the long lens (2d) and sunlight maintain at right angle vicinity and increase electric power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2.) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerating the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration vertically in the internal air (28a) + vacuum and divide vertically to clamp the fastener (80B) A variety of energy storage cycle combined engines with a set of multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2.) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically, select long lens from existing material (2d) The various energy preservation cycle united engine which made the power generation amount increase method as a long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with internal water (28a) with a compressed water heat exchanger (2Y) + Add the vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select a lens of selected cross section from the existing lens cross section (2 d A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation to the sunlight in the water (52b) tube.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed water heat exchanger (2Y) + internal pressure (28a) + evaporative explosion power + add gravity acceleration in a vacuum + accelerate vertically downwards, adiabatic long lens near the vacuum (2d) and various energy conservation cycle united engines that maintain the sunlight at a right angle in the vicinity of the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) + internal pressure of the air (28b) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum to accelerate the split fastener (80B) Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the clamping long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the fastener ( 80B) Various energy storage cycle united engines provided with a plurality of clamping long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy storage cycle united engines with a method of increasing power generation by making (2d) longer.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal heat (28a) in the vacuum + add vaporizing explosion power + gravity acceleration in the vacuum vertically accelerating downward and heat insulation in the part close to the vacuum Various energy storage cycle combined engine which made the long lens (2d) and sunlight maintain at right angle vicinity and increase electric power generation method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy storage cycle united engines with a method of increasing power generation capacity by increasing width.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy conservation cycle united engines which were provided with 2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle united engines using a method of increasing the amount of concentrated power generation to a pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum A variety of energy storage cycle coalescing engines were used to maintain power generation near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle united engines which were provided in the method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + vertically downward to make selected lenses from existing materials long with a large lens (2d) to increase power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward to select sunlight from cross section of existing lens with water (52b) pipe with water (52b) tube Various energy storage cycle united engines with a method to increase centralized power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and in the part close to vacuum, adiabatic long lens (2d) and sunlight at right angle Various energy conservation cycle united engines that were maintained to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive force + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) A variety of energy storage cycle combined engines with a set of multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum, accelerate vertically downward, select lens made from existing material, long lens (2d) The various energy preservation cycle united engine which made the power generation amount increase method as a long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from cross section of existing lens (2d A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation to the sunlight in the water (52b) tube.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum + accelerate vertically downward and adiabatic long lens near the vacuum (2d) and various energy conservation cycle united engines that maintain the sunlight at a right angle in the vicinity of the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration in a vacuum + accelerate vertically downwards, split clamp (80B) tightening long lens ( Various energy conservation cycle combined engine which increased the width of 2d) and made power generation increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to divide and clamp multiple clamps (80B) Various energy storage cycle combined engines with long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) long from existing materials Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select the sun from the existing lens cross section by the selected cross section lens (2d) Various energy storage cycle coalescing engines that use light as a method to increase the amount of power generation into water (52b) pipes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and adiabatic long lens (2d) in the part close to vacuum And various energy preservation cycle united engines which made the amount of power generation increase by maintaining sunlight at near right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive force + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) A variety of energy storage cycle combined engines with a set of multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum, accelerate vertically downward, select lens made from existing material, long lens (2d) The various energy preservation cycle united engine which made the power generation amount increase method as a long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from cross section of existing lens (2d A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation to the sunlight in the water (52b) tube.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum + accelerate vertically downward and adiabatic long lens near the vacuum (2d) and various energy conservation cycle united engines that maintain the sunlight at a right angle in the vicinity of the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle united engines provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat heat water (52b) with heat of air (28b) + add vaporization power + gravity acceleration vertically in vacuum + accelerate vertically downward to make power generation increase method by making the selected lens (2d) longer from existing materials Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle The various energy storage cycle coalescing engines were used to maintain the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward from the existing material to make the selected lens long lens (2d) a method of increasing the amount of power generation Various energy storage cycles Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, divide and clamp (80B) A variety of energy storage cycle combined engines with multiple tightening lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials (2d) The various energy preservation cycle united engines which made the power generation amount increase method by making the size large.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens from selected lens cross section Various energy preservation cycle combined engine which made the sunlight the water (52b) pipe in 2d) and the method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward vertically to lengthen the heat insulation in the part close to vacuum Various energy conservation cycle combined engine which kept the lens (2d) and the sun light in the vicinity of the right angle to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heating water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated down, split lens (80B) clamp long lens Various energy storage cycle united engines with a method of increasing power generation capacity by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and tighten clamp (80B) A variety of energy storage cycle coalescing engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) B) Heating water (52b) with compressed air heat (28b) + Fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make selected long lenses (2d) from existing materials long As a way to increase the amount of power generation and various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn with combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross section lens from existing lens cross section (2d) Various energy conservation cycle combined engine which made the sunlight a water (52b) pipe and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (2d) near the vacuum ) And various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the sunlight at a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, divide and clamp (80B) A variety of energy storage cycle combined engines with multiple tightening lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials (2d) The various energy preservation cycle united engines which made the power generation amount increase method by making the size large.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens from selected lens cross section Various energy preservation cycle combined engine which made the sunlight the water (52b) pipe in 2d) and the method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward vertically to lengthen the heat insulation in the part close to vacuum Various energy conservation cycle combined engine which kept the lens (2d) and the sun light in the vicinity of the right angle to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) + fuel injection and burn it + add the vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection and burning + vaporization and explosion power + additional gravity acceleration in a vacuum, accelerating vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection / burning + adding vaporization and explosion power + gravitational acceleration in a vacuum vertically accelerating downward from existing materials to increase the power output by changing the length of the selected lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to concentrate sunlight on the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downwards to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the vaporization explosion power + gravity acceleration in the vacuum to maximize the vaporization explosion power max + + vertically downward to divide and install the multiple clamp lenses (2 d) of the clamp (80 B) clamp in a set Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase of vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from existing materials, various energy storage cycles with a method of increasing power generation by making a long lens (2d) manufactured selectively Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward, from the existing lens cross section to the selected section length lens (2 d) concentrated sunlight to water (52 b) tube Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Maximize the vaporization explosion power + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Explosive Power Maximize + Add Vaporization Explosive Force + Gravity Acceleration in Vacuum + Accelerate Vertically Down from Existing Materials and Select Production Long Lens (2d) As a method of increasing power output with various energy storage cycle combined engines.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Increase the explosive power + add the vaporized explosive power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to increase sunlight from the existing lens section to the water (52b) tube with the selected section lens (2d) And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downwards to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the vaporization explosion power + gravity acceleration in the vacuum to maximize the vaporization explosion power max + + vertically downward to divide and install the multiple clamp lenses (2 d) of the clamp (80 B) clamp in a set Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase of vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from existing materials, various energy storage cycles with a method of increasing power generation by making a long lens (2d) manufactured selectively Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward, from the existing lens cross section to the selected section length lens (2 d) concentrated sunlight to water (52 b) tube Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Maximize the vaporization explosion power + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Various energy storage cycles combined by increasing the width of the split lens (80B) and the length of the long lens (2d) by increasing the width of the split clamp (80B) by vertically increasing the vaporization explosion force + gravitational acceleration in a vacuum organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Evaporative explosion power + gravitational acceleration is accelerated vertically downward in a vacuum, and divided into multiple fasteners (80B) and a plurality of tightening lenses (2d) for energy storage. Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Various energy storage cycle combined engines with a method to increase the amount of power generation by lengthening large lenses (2d) selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Various energy storage cycles using a method of increasing the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the vaporization explosion power + gravitational acceleration vertically downward in a vacuum Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Evaporative explosion power + acceleration of gravity is additionally added vertically downward in a vacuum to keep the adiabatic long lens (2d) and sunlight at a right angle in the part brought close to the vacuum to save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by adding the detonation force + gravitational acceleration and vertically downward downward.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Various energy storage cycle coalescing engines were designed to increase power generation capacity by adding explosive power + gravitational acceleration vertically downward and dividing it into multiple fasteners (80B) and fastening multiple long lenses (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Various energy conservation cycle combined engines that add power and gravity acceleration and accelerate vertically downward and make the selected lens from existing materials long (2d) to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Various energy conservation cycle combined engines that add concentrated sunlight to the water (52b) tube by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the explosive power + gravitational acceleration vertically downward.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Various energy storage cycle coalescing engines were designed to increase power generation by adding explosive power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add vertical acceleration downwards, split clamp (80B) clamps the length of the long lens (2d) to increase the power generation amount of various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add various kinds of energy storage cycle combining engines by accelerating vertically downward, dividing and installing multiple long lenses (2d) of tightening (80B) tightening as a set.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add vertical acceleration vertically downwards, select from existing materials and manufacture long lenses (2d) as a method to increase power generation.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add various kinds of energy storage cycle combining engine with a method of increasing the amount of concentrated power generation to the water (52b) tube by adding sunlight vertically downward from the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add vertical acceleration downward and keep the adiabatic long lens (2d) and solar light in the vicinity of a right angle in the part close to vacuum, and use various energy storage cycle coalescence engines as a method to increase power generation.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add vertical acceleration downwards, split clamp (80B) clamps the length of the long lens (2d) to increase the power generation amount of various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add various kinds of energy storage cycle combining engines by accelerating vertically downward, dividing and installing multiple long lenses (2d) of tightening (80B) tightening as a set.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add vertical acceleration vertically downwards, select from existing materials and manufacture long lenses (2d) as a method to increase power generation.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add various kinds of energy storage cycle combining engine with a method of increasing the amount of concentrated power generation to the water (52b) tube by adding sunlight vertically downward from the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add vertical acceleration downward and keep the adiabatic long lens (2d) and solar light in the vicinity of a right angle in the part close to vacuum, and use various energy storage cycle coalescence engines as a method to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Various energy conservation cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + the gravitational acceleration vertically downward. .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum A variety of energy storage cycle combining engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and accelerating the selected material from existing materials and making a long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Various energy storage cycles combined by increasing the amount of power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding the vaporization explosion power + gravitational acceleration in the vertical direction organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Various energy storage cycles were used to increase power generation by maintaining the adiabatic long lens (2d) and the solar light in the vicinity of a right angle by accelerating the vaporization explosion power + gravity acceleration in the vertical direction and adding vertically downward. Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat recovery + vaporization evaporative force + gravitational acceleration added vertically downward to accelerate the split clamp (80B) tightening and increase the width of the long lens (2d) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy conservation cycle combined engine which increased the width of 2d) and made power generation increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy storage cycle united engines with a method of increasing power generation capacity by increasing width.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Various energy storage cycle united engines were used to increase power generation and increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and tightening multiple lenses (2d) as a set to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy storage cycle combined engines with long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation cycle united engines which were provided with 2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp Various energy storage cycle united engines, which are provided with (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative detonation power + add gravity acceleration in a vacuum Accelerate vertically downwards, select from existing materials and make long lenses (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum vertically accelerated downward from existing materials to make the selected lens (2d) longer and to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy storage cycle coalescing engines that use light as a method to increase the amount of power generation into water (52b) pipes.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle united engines using a method of increasing the amount of concentrated power generation to a pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle combined engines with water (52b) pipe as a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat recovery + vaporization evaporative explosion power + additional gravity acceleration in the vacuum vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle united engines which made the amount of power generation increase by maintaining sunlight at near right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum A variety of energy storage cycle coalescing engines were used to maintain power generation near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air The compression heat recovery + vaporization explosion power in vacuum + addition of gravitational acceleration power generation method to accelerate vertically downward various energy storage cycle combined engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) A heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in vacuum in a power generation method to accelerate vertically downward various energy storage cycle combined engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) Heats water (52b) with compressed water heat exchanger (2Y) + Adds vaporization explosion power + gravitational acceleration in vacuum + Adds vertical acceleration vertically downward Various energy storage cycle combined engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Various energy storage cycle combined engines with power generation method that heats water (52b) with compressed air heat of heat (28b) + adds vaporization explosion power + gravitational acceleration vertically in vacuum and accelerates vertically downward.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Various energy storage cycle combined engines with power generation method that heats water (52b) with heat quantity (28b) + fuel injection and burns + adds vaporization explosion power + gravitational acceleration in vacuum and accelerates vertically downward.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Various energy storage cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically adding the vaporization explosion power + gravitational acceleration downward.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Various energy storage cycle coalescing engines with additional power generation acceleration method by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing vertically to add vertically downward by adding vaporization explosion power + gravitational acceleration .
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Various energy storage cycle combined engines with a method to increase the amount of power generation by extending the vaporization explosion power + gravity acceleration vertically downward and making the selected lens (2d) longer from the existing materials.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Various energy storage cycle combined engines that increase the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the vaporization explosion power + gravity acceleration vertically downward and using the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Various energy storage cycle coalescing engines were designed to increase power generation capacity by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the vacuum long lens (2 d) .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heating method (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum is accelerated vertically downward to increase the width of the long lens (2 d) by tightening the split clamp (80 B) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + Add various kinds of energy storage cycle combined engines by increasing evaporation power + gravity acceleration vertically in vacuum and accelerating vertically downward from existing materials to make the production long lens (2d) longer.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization explosion force + gravitational acceleration in vacuum + acceleration vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected section lens (2 d) And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), which is a method of increasing power generation Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Evaporative explosion power + gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Various energy storage cycle coalescing engines using a method of increasing the amount of power generation by increasing the vaporization explosion power + gravity acceleration vertically and accelerating vertically downward to make the selected long lens (2d) from existing materials longer.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add various kinds of methods to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating it vertically downward by adding the vaporization explosion power + gravitational acceleration vertically downward Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Evaporative explosion power + gravity acceleration was added in + vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heating method (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum is accelerated vertically downward to increase the width of the long lens (2 d) by tightening the split clamp (80 B) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + Add various kinds of energy storage cycle combined engines by increasing evaporation power + gravity acceleration vertically in vacuum and accelerating vertically downward from existing materials to make the production long lens (2d) longer.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization explosion force + gravitational acceleration in vacuum + acceleration vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected section lens (2 d) And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Various energy storage cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically adding the vaporization explosion power + gravitational acceleration downward.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Various energy storage cycle coalescing engines with additional power generation acceleration method by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing vertically to add vertically downward by adding vaporization explosion power + gravitational acceleration .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Various energy storage cycle combined engines with a method to increase the amount of power generation by extending the vaporization explosion power + gravity acceleration vertically downward and making the selected lens (2d) longer from the existing materials.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Various energy storage cycle combined engines that increase the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the vaporization explosion power + gravity acceleration vertically downward and using the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Various energy storage cycle coalescing engines were designed to increase power generation capacity by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the vacuum long lens (2 d) .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), thereby increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward, and divided into various fasteners (80B) and a plurality of long lenses (2d) for tightening.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward and selected from existing materials. A manufacturing length lens (2d) is made longer to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward, and various energy storage cycle combined engines are used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube by selecting sunlight with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and solar light at right angles in the part close to vacuum, and various energy conservation cycle combined engines were used to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the vaporization explosion force + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Generator (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamps to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + Add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select power from existing materials and use a long lens (2d) as a method to increase power output.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Method (2) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Method (2) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by adding the detonation force + gravitational acceleration and vertically downward downward.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Various energy storage cycle coalescing engines were designed to increase power generation capacity by adding explosive power + gravitational acceleration vertically downward and dividing it into multiple fasteners (80B) and fastening multiple long lenses (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Various energy conservation cycle combined engines that add power and gravity acceleration and accelerate vertically downward and make the selected lens from existing materials long (2d) to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Various energy conservation cycle combined engines that add concentrated sunlight to the water (52b) tube by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the explosive power + gravitational acceleration vertically downward.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Various energy storage cycle coalescing engines were designed to increase power generation by adding explosive power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Various energy conservation cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + the gravitational acceleration vertically downward. .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater A variety of energy storage cycle combining engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and accelerating the selected material from existing materials and making a long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Various energy storage cycles combined by increasing the amount of power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding the vaporization explosion power + gravitational acceleration in the vertical direction organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Various energy storage cycles were used to increase power generation by maintaining the adiabatic long lens (2d) and the solar light in the vicinity of a right angle by accelerating the vaporization explosion power + gravity acceleration in the vertical direction and adding vertically downward. Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by adding the detonation force + gravitational acceleration and vertically downward downward.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Various energy storage cycle coalescing engines were designed to increase power generation capacity by adding explosive power + gravitational acceleration vertically downward and dividing it into multiple fasteners (80B) and fastening multiple long lenses (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Various energy conservation cycle combined engines that add power and gravity acceleration and accelerate vertically downward and make the selected lens from existing materials long (2d) to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Various energy conservation cycle combined engines that add concentrated sunlight to the water (52b) tube by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the explosive power + gravitational acceleration vertically downward.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Various energy storage cycle coalescing engines were designed to increase power generation by adding explosive power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum The various energy storage cycle combined engines were designed to increase the power generation amount by increasing the width of the long lens (2d) by increasing the acceleration vertically downward and increasing the width of the long lens (2d) by tightening the split clamp (80B).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum The acceleration is accelerated vertically downward, and divided into various fasteners (80B) and a plurality of long lenses (2d) for fastening.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Various energy conservation cycle combined engines that add acceleration vertically downward and accelerate from the existing materials and make the production length lens (2d) longer and larger the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Various energy storage cycle coalescing engines, which add acceleration to the vertical direction vertically and accelerate sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum The acceleration is accelerated vertically downward, and the adiabatic long lens (2d) and the solar light are maintained in the vicinity of a right angle in the part brought close to the vacuum, and various energy storage cycle coalescing engines were used to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + evaporation in the vacuum + acceleration of gravity acceleration is added vertically downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + acceleration of gravity is added vertically downward to split, split and clamp (80B) clamp multiple length lenses (2d) Various energy conservation cycle united engines which were provided to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Device (2) Add heat inside the air to compression heat recovery + add to vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward to make the selected lens from existing materials longer by using various lenses. Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravitational acceleration is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section long lens (2 d) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravity acceleration is added vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically downward in vacuum, and divided into various fasteners (80B) and multiple tightening lenses (2d) for tightening. Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Various energy conservation cycle combined engines with a method of increasing the amount of power generation by lengthening large lenses (2d) selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward, from the existing lens section to the selected section length lens (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat recovery + vaporization evaporative force + gravitational acceleration added vertically downward to accelerate the split clamp (80B) tightening and increase the width of the long lens (2d) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and tightening multiple lenses (2d) as a set to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation power + add gravity acceleration in a vacuum Accelerate vertically downwards, select from existing materials and make long lenses (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Vaporization explosive force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat recovery + vaporization evaporative explosion power + additional gravity acceleration in the vacuum vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically downward in vacuum, and divided into various fasteners (80B) and multiple tightening lenses (2d) for tightening. Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Various energy conservation cycle combined engines with a method of increasing the amount of power generation by lengthening large lenses (2d) selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward, from the existing lens section to the selected section length lens (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Various energy storage cycle combined engines with increased power generation capacity by increasing the width of the long lens (2d) by accelerating the vaporization explosion power + gravity acceleration vertically downward and increasing the split fastener (80B) tightening.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Various additional energy storage cycles combined as a method to increase power generation capacity by adding a plurality of long lenses (2d) by tightening the clamp (80B) by dividing it and dividing vertically by adding the vaporization explosion power + gravitational acceleration vertically downward. organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Various energy storage cycle combined engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and make the selected lens from existing materials long (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Various energy storage cycle coalescing engines using a method of increasing the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the vaporization explosion power + gravitational acceleration downward vertically .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Adds various energy storage cycles by increasing the amount of power generation by adding the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and the solar light at right angles in the part close to vacuum organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the split clamp (80B) clamp long lens Various energy storage cycle united engines with a method of increasing power generation capacity by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + add vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, split and clamp (80B) clamp A variety of energy storage cycle coalescing engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to make selected long lens (2d) long from existing materials As a way to increase the amount of power generation and various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction accelerated vertically downward and select section length lens (2d) from the existing lens section Various energy conservation cycle combined engine which made the sunlight a water (52b) pipe and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat recovery of the internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and the adiabatic long lens (2d) ) And various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the sunlight at a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy conservation cycle united engines which were provided to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat recovery (compressive heat recovery) + evaporation in a vacuum using a heat pump (1G), acceleration of gravity acceleration is added vertically downward, and various materials are used to increase the amount of power generation by making the selected lens (2d) longer from existing materials Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum vertically accelerated downward from existing materials to make the selected lens (2d) longer and to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy conservation cycle united engines which were provided to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat recovery (compressive heat recovery) + evaporation in a vacuum using a heat pump (1G), acceleration of gravity acceleration is added vertically downward, and various materials are used to increase the amount of power generation by making the selected lens (2d) longer from existing materials Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Compressive heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward, divided, and a set of multiple long lenses (2d) for tightening (80B) tightening is provided to generate power Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( Various energy conservation cycle combined engine which made the power generation amount increase method by lengthening the selection production long lens (2d) by accelerating vertically downward by adding vaporization heat power + gravitational acceleration in compression heat recovery + vacuum in 1G) .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Add compression heat recovery + Evaporative explosion power + Gravity acceleration in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d) How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added vertically in vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to generate power Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward, divided clamp (80B) Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the clamping long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + add vertical acceleration downward, divide the internal air (28a) in the vertical direction and divide the fastener ( 80B) Various energy storage cycle united engines provided with a plurality of clamping long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add vaporizing explosive power + gravitational acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy storage cycle united engines with a method of increasing power generation by making (2d) longer.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to select the selected cross section length from the existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward to adiabatic at the part close to vacuum Various energy storage cycle combined engine which made the long lens (2d) and sunlight maintain at right angle vicinity and increase electric power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy storage cycle united engines with a method of increasing power generation capacity by increasing width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy conservation cycle united engines which were provided with 2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle united engines using a method of increasing the amount of concentrated power generation to a pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum A variety of energy storage cycle coalescing engines were used to maintain power generation near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy conservation cycle combined engine which increased the width of 2d) and made power generation increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy storage cycle combined engines with long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy storage cycle coalescing engines that use light as a method to increase the amount of power generation into water (52b) pipes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle united engines which made the amount of power generation increase by maintaining sunlight at near right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy storage cycle united engines with a method of increasing power generation capacity by increasing width.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy conservation cycle united engines which were provided with 2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle united engines using a method of increasing the amount of concentrated power generation to a pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum A variety of energy storage cycle coalescing engines were used to maintain power generation near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle united engines which were provided in the method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + vertically downward to make selected lenses from existing materials long with a large lens (2d) to increase power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward to select sunlight from cross section of existing lens with water (52b) pipe with water (52b) tube Various energy storage cycle united engines with a method to increase centralized power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and in the part close to vacuum, adiabatic long lens (2d) and sunlight at right angle Various energy conservation cycle united engines that were maintained to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat amount + add vaporizing explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) A variety of energy storage cycle combined engines with a set of multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make a selected lens from existing materials Long lens (2d) The various energy preservation cycle united engine which made the power generation amount increase method as a long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross-section length lens from existing lens cross-section (2d A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation to the sunlight in the water (52b) tube.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) and various energy conservation cycle united engines that maintain the sunlight at a right angle in the vicinity of the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle united engines provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat heat water (52b) with heat of air (28b) + add vaporization power + gravity acceleration vertically in vacuum + accelerate vertically downward to make power generation increase method by making the selected lens (2d) longer from existing materials Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle The various energy storage cycle coalescing engines were used to maintain the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy storage cycle united engines with a method of increasing power generation capacity by increasing width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation cycle united engines which were provided with 2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle united engines using a method of increasing the amount of concentrated power generation to a pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum A variety of energy storage cycle coalescing engines were used to maintain power generation near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle united engines provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat heat water (52b) with heat of air (28b) + add vaporization power + gravity acceleration vertically in vacuum + accelerate vertically downward to make power generation increase method by making the selected lens (2d) longer from existing materials Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle The various energy storage cycle coalescing engines were used to maintain the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward from the existing material to make the selected lens long lens (2d) a method of increasing the amount of power generation Various energy storage cycles Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosion power + gravity acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to divide and clamp (80B) A variety of energy storage cycle combined engines with multiple tightening lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, select lens made from existing material, long lens (2d The various energy preservation cycle united engines which made the power generation amount increase method by making the size large.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravity acceleration in vacuum add acceleration vertically downward and select lens from selected lens cross section Various energy preservation cycle combined engine which made the sunlight the water (52b) pipe in 2d) and the method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downwards, length of heat insulation in the part close to vacuum Various energy conservation cycle combined engine which kept the lens (2d) and the sun light in the vicinity of the right angle to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) + fuel injection and burn it + add the vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Various energy storage cycle united engines were used to increase power generation and increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp Various energy storage cycle united engines, which are provided with (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle combined engines with water (52b) pipe as a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) + fuel injection and burn it + add the vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection and burning + vaporization and explosion power + additional gravity acceleration in a vacuum, accelerating vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection / burning + adding vaporization and explosion power + gravitational acceleration in a vacuum vertically accelerating downward from existing materials to increase the power output by changing the length of the selected lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to concentrate sunlight on the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the container (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to increase the width of the split lens (80B) clamping long lens (2d) Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle united engines which were provided in the method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to make the selected lens (2d) longer from the existing materials. Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is increased to the maximum + the evaporation explosion power + gravitational acceleration is added vertically downward in the vacuum chamber (2) and the sunlight is accelerated by the vertical cross section from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle united engines with a method to increase centralized power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the vessel (2) + the vaporization explosion power + gravity acceleration is added vertically downward in vacuum and accelerated vertically downward, and the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy conservation cycle united engines that were maintained to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + vaporization and explosion force + addition of gravity acceleration in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) various energy Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase the amount of power generation by increasing the amount of generated power by increasing the amount of vaporization explosion power + gravity acceleration in the vacuum and accelerating vertically downward, dividing and tightening the clamp (80B) and tightening multiple lenses. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + add vaporization and explosion power + vacuum acceleration in vacuum vertically accelerated downward from the existing materials, select long lens (2d) manufactured from various materials, various energy storage cycle combined engine with power generation increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + increase vaporization and explosion power in vacuum + add acceleration vertically downward, and select sunlight from the existing lens cross section to the water (52b) tube with selected section length lens (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase the amount of generated electricity by maintaining the long lens (2d) of adiabatic and the solar light at a right angle near the vacuum by adding the vaporization explosion power and the gravitational acceleration in the vacuum and accelerating vertically downward. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Explosive Power Maximize + Add Vaporization Explosive Force + Gravity Acceleration in Vacuum + Accelerate Vertically Down from Existing Materials and Select Production Long Lens (2d) As a method of increasing power output with various energy storage cycle combined engines.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to increase sunlight from the existing lens section to the water (52b) tube with the selected section lens (2d) And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + vaporization and explosion force + addition of gravity acceleration in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) various energy Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase the amount of power generation by increasing the amount of generated power by increasing the amount of vaporization explosion power + gravity acceleration in the vacuum and accelerating vertically downward, dividing and tightening the clamp (80B) and tightening multiple lenses. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + add vaporization and explosion power + vacuum acceleration in vacuum vertically accelerated downward from the existing materials, select long lens (2d) manufactured from various materials, various energy storage cycle combined engine with power generation increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + increase vaporization and explosion power in vacuum + add acceleration vertically downward, and select sunlight from the existing lens cross section to the water (52b) tube with selected section length lens (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase the amount of generated electricity by maintaining the long lens (2d) of adiabatic and the solar light at a right angle near the vacuum by adding the vaporization explosion power and the gravitational acceleration in the vacuum and accelerating vertically downward. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Various energy conservation cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + the gravitational acceleration vertically downward. .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum A variety of energy storage cycle combining engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and accelerating the selected material from existing materials and making a long lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Various energy storage cycles combined by increasing the amount of power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding the vaporization explosion power + gravitational acceleration in the vertical direction organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Various energy storage cycles were used to increase power generation by maintaining the adiabatic long lens (2d) and the solar light in the vicinity of a right angle by accelerating the vaporization explosion power + gravity acceleration in the vertical direction and adding vertically downward. Coalition agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Various energy conservation cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + the gravitational acceleration vertically downward. .
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum A variety of energy storage cycle combining engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and accelerating the selected material from existing materials and making a long lens (2d).
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Various energy storage cycles combined by increasing the amount of power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding the vaporization explosion power + gravitational acceleration in the vertical direction organ.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Various energy storage cycles were used to increase power generation by maintaining the adiabatic long lens (2d) and the solar light in the vicinity of a right angle by accelerating the vaporization explosion power + gravity acceleration in the vertical direction and adding vertically downward. Coalition agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Various energy conservation cycle combined engines that increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + the gravitational acceleration vertically downward. .
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum A variety of energy storage cycle combining engines with a method to increase the power generation capacity by increasing the vaporization explosion power + gravity acceleration vertically downward and accelerating the selected material from existing materials and making a long lens (2d).
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Various energy storage cycles combined by increasing the amount of power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding the vaporization explosion power + gravitational acceleration in the vertical direction organ.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Various energy storage cycles were used to increase power generation by maintaining the adiabatic long lens (2d) and the solar light in the vicinity of a right angle by accelerating the vaporization explosion power + gravity acceleration in the vertical direction and adding vertically downward. Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split fastener (80B) And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and fixed length lenses (2d) as a set to generate electricity Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward from existing materials to make the length of the selected lens (2d) be a method of increasing power output .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section long lens (2 d) How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a perpendicular angle in the part brought close to the vacuum Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air air compression heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the split clamp (80B) tightening long lens (2d) width The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate split clamp (80B) tightening Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide Various energy conservation cycle combined engines that increase power generation amount by increasing the width of attached long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration vertically in vacuum, accelerate vertically downward, split fastener ( 80B) Various energy storage cycle combined engines in which the power generation amount is increased by increasing the width of the fixed long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertical acceleration vertically, split fastener (80B) Various energy storage cycle united engines having a method of increasing the power generation amount by increasing the width of the tightening long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to divide, divide and clamp (80B) clamp multiple length lenses (2d) Various energy storage cycle united engines provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and tighten clamp (80B) A variety of energy storage cycle combined engines with a set of multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide A variety of energy storage cycle coalescing engines, in which a plurality of long lenses (2d) for tightening the clamp (80B) are provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp Tools (80B) Various energy storage cycle united engines which are provided with a plurality of tightening lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add additional vertically downward to divide and clamp A variety of energy storage cycle coalescing engines, in which a set of multiple long lenses (2d) for attachment (80B) tightening is provided to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air air compression heat recovery + Evaporative detonation force + Gravity acceleration is added vertically downward to accelerate vertically downward from the existing material to make the selected lens (2d) longer to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate selected organic lens from existing materials Long lens (2d) The various energy preservation cycle united engine which made the power generation amount increase method as a long.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosivity + gravity acceleration in a vacuum add acceleration vertically downward, existing material Various energy storage cycle combined engine which made the production amount increase method by making the production lens length (2d) large from the selection.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select from existing materials Various energy storage cycle combined engine which made the long lens (2d) long and made power generation increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward to select from existing materials Various energy storage cycle combined engines with long production lens length (2d) and increased power generation method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to accelerate sunlight from the existing lens cross section with selected cross section lens (2d) water (52b) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate from the existing lens cross section A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation to the sunlight in the water (52b) tube.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, existing lens Various energy conservation cycle combined engine which made the sunlight the water (52b) tube by the section lens selection (2d) from the cross section.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + acceleration of gravity in vacuum vertically downward to select from existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward from existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to accelerate the vertical direction, the long lens (2d) of the heat insulation in the part close to the vacuum and the sunlight The various energy storage cycle coalescing engines were used to maintain the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) and various energy conservation cycle united engines that maintain the sunlight at a right angle in the vicinity of the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to vacuum A variety of energy storage cycle coalescing engines with a method of increasing power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the approached part.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downwards, part brought close to vacuum A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward and brought close to vacuum A variety of energy storage cycle coalescing engines with a method of increasing power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the part.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Various energy storage cycle combined engine with power generation method to add internal heat to compression heat recovery + vaporization explosion power + gravity acceleration in the vacuum vertically downward.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Various energy storage cycle coalescing engines with power generation method where internal air (28a) is compressed heat recovery with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward to accelerate downward.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar The light heater (2) (2b) heats the water (52b) in a compressed water heat exchanger (2Y) + internal air (28a) + vaporization and explosion power in a vacuum + additional gravity acceleration to generate power generation method to accelerate vertically downward Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization and explosion power in a vacuum + addition of gravitational acceleration Various energy storage as a power generation method to accelerate vertically downward Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum Various energy as power generation method to accelerate vertically downward Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the vaporization explosion force + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating Generator (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamps to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + Add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select power from existing materials and use a long lens (2d) as a method to increase power output.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating Method (2) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating Method (2) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Add the evaporative explosion power + gravitational acceleration vertically in a close proximity to etc + + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split clamp (80B) clamp the length of the long lens (2d) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) And so on perpendicular to + + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, split and clamp (80B) tightening multiple lenses (2d) The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) And approach the right angle with + + solar light heater (2) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power output Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle with + + solar light heater (2) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right and so on + solar light heater (2) + add evaporative explosion power + gravitational acceleration in the vacuum vertically accelerating vertically downward to make the adiabatic long lens (2d) and the sun light at right angle at the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization explosion force + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating Generator (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamps to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + Add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select power from existing materials and use a long lens (2d) as a method to increase power output.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating Method (2) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating Method (2) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightened by the split clamp (80B), thereby increasing power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and multiple length lenses (2d) tightened to generate electricity Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, vertically accelerated downward from existing materials, combined with various energy storage cycles as a method of increasing power output by making a long lens (2d) manufactured selectively organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section lens (2 d) Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization explosion force + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating Generator (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamps to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + Add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select power from existing materials and use a long lens (2d) as a method to increase power output.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating Method (2) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating Method (2) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Various kinds of energy storage cycles were made by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically increasing the vaporization explosion power + gravitational acceleration downward in + vacuum. Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Various energy is used to increase the amount of power generation by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing it and dividing vertically by adding the vaporization explosion power + gravitational acceleration vertically downward in + vacuum. Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Various energy storage cycle combined engines with a method to increase power generation capacity by increasing the vaporization explosion power + gravity acceleration in a vacuum and accelerating vertically downward to make the selected lens (2d) longer from the existing materials.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) Various energy conservation methods to increase the amount of concentrated electricity generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating it vertically downward by adding the vaporization explosion power + gravitational acceleration vertically in a + vacuum Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Various energy is added by accelerating the vaporization explosion power + gravity acceleration in the vacuum and accelerating vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to increase power generation Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Increase the width of the split lens (80B) clamping long lens (2d) by approaching vertically with + solar light heater (2) + add evaporative explosion power + gravitational acceleration in vacuum in vertical direction The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Various energy storage cycles were made by increasing the amount of generated power by increasing the amount of vaporization explosive power + acceleration of gravity by adding vertically downward, dividing and securing multiple fasteners (80B) and tightening multiple lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right with + solar light heater (2) + add evaporative detonation force + gravitational acceleration in a vacuum and accelerate vertically downward to make power generation increase method by making the selected manufacturing long lens (2d) longer from existing materials Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the vaporization explosion force + gravitational acceleration in a vacuum, accelerate vertically downwards, and make the adiabatic long lens (2d) and sunlight close to a right angle in the part close to the vacuum The various energy storage cycle coalescing engines were used to maintain the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2 d) by tightening the split fasteners (80B) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + add vaporization and explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Various energy storage cycle coalescing engines using a method of increasing the amount of power generation by lengthening large lenses selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split fastener (80B) And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and fixed length lenses (2d) as a set to generate electricity Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward from existing materials to make the length of the selected lens (2d) be a method of increasing power output .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section long lens (2 d) How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a perpendicular angle in the part brought close to the vacuum Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2 d) by tightening the split fasteners (80B) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + add vaporization and explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Various energy storage cycle coalescing engines using a method of increasing the amount of power generation by lengthening large lenses selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Various energy storage cycles combined by increasing the width of the split lens (80B) and the length of the long lens (2d) by increasing the width of the split clamp (80B) by vertically increasing the vaporization explosion force + gravitational acceleration in a vacuum organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Evaporative explosion power + gravitational acceleration is accelerated vertically downward in a vacuum, and divided into multiple fasteners (80B) and a plurality of tightening lenses (2d) for energy storage. Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Various energy storage cycle combined engines with a method to increase the amount of power generation by lengthening large lenses (2d) selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Various energy storage cycles using a method of increasing the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the vaporization explosion power + gravitational acceleration vertically downward in a vacuum Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Evaporative explosion power + acceleration of gravity is additionally added vertically downward in a vacuum to keep the adiabatic long lens (2d) and sunlight at a right angle in the part brought close to the vacuum to save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal air compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward, split clamp (80B) clamp long lens ( Various energy conservation cycle combined engine which increased the width of 2d) and made power generation increase method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + add evaporative explosion power + gravity acceleration in vertical direction vertically accelerated, divided into multiple clamps (80B) clamp Various energy storage cycle combined engines with long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) Internal air compressed heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward to make the selected manufacturing long lens (2d) long from existing materials Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated downward, from the existing lens cross section to the selected cross-section length lens (2d) sun Various energy storage cycle coalescing engines that use light as a method to increase the amount of power generation into water (52b) pipes.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated downward, vacuum a portion of the adiabatic long lens (2d) And various energy preservation cycle united engines which made the amount of power generation increase by maintaining sunlight at near right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress internal heat with compression heat recovery + add vaporizing explosive force + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) clamp by tightening the split fastener (80B) Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Internal heat air compression heat recovery + addition of vaporization explosion power + acceleration of gravity in a vacuum to accelerate vertically downward to divide and set a plurality of long lenses (2d) of tightening (80B) tightening Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add heat inside the air in compression heat recovery + vacuum, add vaporization power + gravity acceleration vertically downward, select various materials from existing materials, make long lenses (2d), and save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress the internal air into compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to concentrate the sunlight into the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, and keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air air compression heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the split clamp (80B) tightening long lens (2d) width The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to divide, divide and clamp (80B) clamp multiple length lenses (2d) Various energy storage cycle united engines provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air air compression heat recovery + Evaporative detonation force + Gravity acceleration is added vertically downward to accelerate vertically downward from the existing material to make the selected lens (2d) longer to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to accelerate sunlight from the existing lens cross section with selected cross section lens (2d) water (52b) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to accelerate the vertical direction, the long lens (2d) of the heat insulation in the part close to the vacuum and the sunlight The various energy storage cycle coalescing engines were used to maintain the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress internal heat with compression heat recovery + add vaporizing explosive force + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) clamp by tightening the split fastener (80B) Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Internal heat air compression heat recovery + addition of vaporization explosion power + acceleration of gravity in a vacuum to accelerate vertically downward to divide and set a plurality of long lenses (2d) of tightening (80B) tightening Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add heat inside the air in compression heat recovery + vacuum, add vaporization power + gravity acceleration vertically downward, select various materials from existing materials, make long lenses (2d), and save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress the internal air into compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to concentrate the sunlight into the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, and keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat recovery of air + Evaporative detonation force + addition of gravitational acceleration in compression and acceleration vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) and increase power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Increase heat generation by compression heat recovery + add vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Various energy preservation cycle combined engine which made the power generation amount increase method by making air the compression heat recovery + vaporization explosion power + gravity acceleration in the vacuum and add vertically downward to make the selected long lens (2d) from existing materials longer.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside A method to increase the amount of concentrated power generation from the existing lens cross section to the selected section long lens (2d) by accelerating sunlight downward with compression heat recovery + evaporation vaporization power + gravity acceleration in vacuum in a water (52b) pipe And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat recovery of air + Evaporative explosion + addition of gravitational acceleration in a vacuum Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) Compressive heat recovery + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerated downward, split fastener (80B) Various energy storage cycle united engines having a method of increasing the power generation amount by increasing the width of the tightening long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle to + solar light heater (2) internal heat (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically in the vacuum, divided vertically and divided A variety of energy storage cycle coalescing engines, in which a set of multiple long lenses (2d) for attachment (80B) tightening is provided to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downward to select from existing materials Various energy storage cycle combined engines with long production lens length (2d) and increased power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) Compressive heat recovery + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward from existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downward and brought close to vacuum A variety of energy storage cycle coalescing engines with a method of increasing power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the part.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum and accelerated vertically downwards, split clamp (80B) clamp long lens ( Various energy conservation cycle combined engine which increased the width of 2d) and made power generation increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add internal heat (28a) with heat pump (1G) in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide and divide multiple clamps (80B) Various energy storage cycle combined engines with long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add heat inside the air (28a) with compression heat recovery with heat pump (1G) + add detonation force + gravitational acceleration vertically downward and accelerate the selected material from existing materials vertically to make the long lens (2d) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat the internal air (28a) with a heat pump (1G) + add vaporization power + gravitational acceleration in compression heat recovery + vacuum and accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy storage cycle coalescing engines that use light as a method to increase the amount of power generation into water (52b) pipes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and adiabatic long lens (2d) at the part brought close to vacuum And various energy preservation cycle united engines which made the amount of power generation increase by maintaining sunlight at near right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate split clamp (80B) tightening Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and tighten clamp (80B) A variety of energy storage cycle combined engines with a set of multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate selected organic lens from existing materials Long lens (2d) The various energy preservation cycle united engine which made the power generation amount increase method as a long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate from the existing lens cross section A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation to the sunlight in the water (52b) tube.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) and various energy conservation cycle united engines that maintain the sunlight at a right angle in the vicinity of the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum and accelerated vertically downwards, split clamp (80B) clamp long lens ( Various energy conservation cycle combined engine which increased the width of 2d) and made power generation increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add internal heat (28a) with heat pump (1G) in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide and divide multiple clamps (80B) Various energy storage cycle combined engines with long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add heat inside the air (28a) with compression heat recovery with heat pump (1G) + add detonation force + gravitational acceleration vertically downward and accelerate the selected material from existing materials vertically to make the long lens (2d) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat the internal air (28a) with a heat pump (1G) + add vaporization power + gravitational acceleration in compression heat recovery + vacuum and accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy storage cycle coalescing engines that use light as a method to increase the amount of power generation into water (52b) pipes.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and adiabatic long lens (2d) at the part brought close to vacuum And various energy preservation cycle united engines which made the amount of power generation increase by maintaining sunlight at near right angle.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat heat compression (air heat 28a) with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the width of split fastener (80B) and width of long lens (2d) Various energy storage cycle united engines were used to increase power generation capacity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization and explosion power + additional gravity acceleration is accelerated vertically downward to divide and clamp multiple fasteners (80B) with multiple lenses (2d) A variety of energy storage cycle coalescing engines with a set of methods to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat (1G) compression heat recovery of air (28G) + addition of vaporization explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate vertically downward from existing materials to increase power generation method by making the selected lens (2d) longer And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward and accelerated vertically downward to make sunlight water with selected cross section lens (2d) from existing lens cross section 52b) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat the air (28a) with a heat pump (1G) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and sunlight at the part close to the vacuum Various energy storage cycle combined engines that maintain power generation capacity at near right angle.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Various energy storage cycle combined engines that accelerate and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward A variety of energy storage cycle coalescing engines have been developed by providing a set of multiple lenses (2d), which are divided into separate clamps and clamps (80B) and tightened.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward A variety of energy storage cycle coalescing engines, which accelerate and select power from existing materials and lengthen the power lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Various energy storage cycle coalescing engines that accelerate and add sunlight to the water (52b) tube from the existing lens cross section with the selected cross section lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum by accelerating.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide fasteners (2) 80B) Various energy storage cycle combined engines in which the power generation amount is increased by increasing the width of the fixed long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to divide and tighten Tools (80B) Various energy storage cycle united engines which are provided with a plurality of tightening lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy storage cycle combined engine which made the long lens (2d) long and made power generation increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward and select from existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to a part close to the vacuum A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide Various energy conservation cycle combined engines that increase power generation amount by increasing the width of attached long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide A variety of energy storage cycle coalescing engines, in which a plurality of long lenses (2d) for tightening the clamp (80B) are provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosivity + gravity acceleration in a vacuum add acceleration vertically downward, existing material Various energy storage cycle combined engine which made the production amount increase method by making the production lens length (2d) large from the selection.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, existing lens Various energy conservation cycle combined engine which made the sunlight the water (52b) tube by the section lens selection (2d) from the cross section.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to vacuum A variety of energy storage cycle coalescing engines with a method of increasing power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the approached part.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide fasteners (2) 80B) Various energy storage cycle combined engines in which the power generation amount is increased by increasing the width of the fixed long lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to divide and tighten Tools (80B) Various energy storage cycle united engines which are provided with a plurality of tightening lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy storage cycle combined engine which made the long lens (2d) long and made power generation increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward and select from existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to a part close to the vacuum A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + accelerate vertically downward to clamp the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + gravity acceleration in the vacuum + add vertical acceleration vertically to divide and clamp the fastener (80B) A variety of energy storage cycle combined engines with multiple tightening lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to make the selected lens from existing materials Long lens (2d) The various energy preservation cycle united engines which made the power generation amount increase method by making the size large.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to select cross section lens from the existing lens cross section Various energy preservation cycle combined engine which made the sunlight the water (52b) pipe in 2d) and the method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to lengthen the heat insulation in the part close to vacuum Various energy conservation cycle combined engine which kept the lens (2d) and the sun light in the vicinity of the right angle to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward , Various energy storage cycle combined engine which increased the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward A variety of energy storage cycle combining engines, which are divided and provided with a plurality of lenses (2d) of tightening (80B) tightening as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward Select from existing materials, and make long lenses (2d) to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward From the existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected cross section long lens (2d) tube.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward A variety of energy storage cycle coalescing engines with a method of increasing power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate the divided clamp (80B) Various energy storage cycle combined engine which increased the width of the attached long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air with water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and divide it into fasteners (80B 2.) Various energy storage cycle united engines provided with a plurality of tightening long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravitational acceleration in vacuum and accelerate vertically downward to make a selected lens from existing materials Various energy conservation cycle combined engine which made power generation amount increase method by making 2d longer.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization power + gravity acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from the existing lens cross section Various energy preservation cycle united engines which made the sunlight the water (52b) tube in (2d) method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in a vacuum + accelerate vertically downward and adiabatic at the part close to vacuum Various energy conservation cycle combined engine which made the long lens (2d) and sunlight maintain near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration vertically in vacuum, accelerate vertically downward, split fastener ( 80B) Various energy storage cycle combined engines in which the power generation amount is increased by increasing the width of the fixed long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp Tools (80B) Various energy storage cycle united engines which are provided with a plurality of tightening lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select from existing materials Various energy storage cycle combined engine which made the long lens (2d) long and made power generation increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + acceleration of gravity in vacuum vertically downward to select from existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downwards, part brought close to vacuum A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate the divided clamp (80B) Various energy storage cycle combined engine which increased the width of the attached long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air with water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and divide it into fasteners (80B 2.) Various energy storage cycle united engines provided with a plurality of tightening long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravitational acceleration in vacuum and accelerate vertically downward to make a selected lens from existing materials Various energy conservation cycle combined engine which made power generation amount increase method by making 2d longer.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization power + gravity acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from the existing lens cross section Various energy preservation cycle united engines which made the sunlight the water (52b) tube in (2d) method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in a vacuum + accelerate vertically downward and adiabatic at the part close to vacuum Various energy conservation cycle combined engine which made the long lens (2d) and sunlight maintain near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, long lens with divided clamp (80B) clamp Various energy storage cycle united engines with a method of increasing power generation capacity by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and clamp the fastener (80B) A variety of energy storage cycle coalescing engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make the selected long lens (2d) long from the existing material As a way to increase the amount of power generation and various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from existing lens cross section (2d) Various energy conservation cycle combined engine which made the sunlight a water (52b) pipe and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and adiabatic long lens (2d) ) And various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the sunlight at a right angle.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward The various energy storage cycle combination engine which made the power generation amount increase method by increasing the width of the long lens (2d) by tightening the split clamp (80B).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward The various energy storage cycle united engines were divided into multiple power lenses (2d) for tightening by clamping (80B) and provided as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward Various energy storage cycle coalescing engines, which are selected from existing materials and have a long lens size (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward Various energy storage cycle coalescing engines have a method of increasing the amount of concentrated power generation to a tube of water (52b) by using a lens (2d) to select sunlight from the cross section of the existing lens.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward, split fastener (80B) Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the clamping long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp 80B) Various energy storage cycle united engines provided with a plurality of clamping long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials Various energy storage cycle united engines with a method of increasing power generation by making (2d) longer.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward and adiabatic at the part close to vacuum Various energy storage cycle combined engine which made the long lens (2d) and sunlight maintain at right angle vicinity and increase electric power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertical acceleration vertically, split fastener (80B) Various energy storage cycle united engines having a method of increasing the power generation amount by increasing the width of the tightening long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add additional vertically downward to divide and clamp A variety of energy storage cycle coalescing engines, in which a set of multiple long lenses (2d) for attachment (80B) tightening is provided to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward to select from existing materials Various energy storage cycle combined engines with long production lens length (2d) and increased power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward from existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward and brought close to vacuum A variety of energy storage cycle coalescing engines with a method of increasing power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the part.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward, split fastener (80B) Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the clamping long lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp 80B) Various energy storage cycle united engines provided with a plurality of clamping long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials Various energy storage cycle united engines with a method of increasing power generation by making (2d) longer.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward and adiabatic at the part close to vacuum Various energy storage cycle combined engine which made the long lens (2d) and sunlight maintain at right angle vicinity and increase electric power generation method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + add vaporization and explosion power + gravity acceleration in vacuum vertically accelerating the divided clamp (80B) by tightening vertically Various energy storage cycle combined engine which increased the width of the lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + add vaporization and explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and clamp the fastener (80B) A variety of energy storage cycle combined engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to make a selected lens from existing materials (2d) Various energy conservation cycle united engines with long and large power generation capacity increasing methods.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + Fuel-injection-combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross-section length lens (2d) from existing lens cross-section In the water (52b) tube, various energy storage cycle combined engines were used to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + fuel-jet burn and burn + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (close to vacuum) 2d) A variety of energy storage cycle coalescing engines with a method to increase the amount of power generation by maintaining the sunlight near at a right angle.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to right angle + increase the vaporization explosion power maximum with solar light heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating down vertically, split clamp (80B) clamp long lens Various energy storage cycle united engines with a method of increasing power generation capacity by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right angle + increase the vaporization explosion power with solar light heater (2) maximum + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating downward, split and clamp (80B) tightening A variety of energy storage cycle coalescing engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle + increase the vaporization explosive power maximum with solar light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating downward vertically to make a selected manufacturing long lens (2d) long from existing materials As a way to increase the amount of power generation and various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to perpendicular to + increase the vaporization explosive power maximum with solar light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating downwards vertically from the existing lens cross section with the selected cross section lens (2d) Various energy conservation cycle combined engine which made the sunlight a water (52b) pipe and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to perpendicular to + increase the vaporization explosion power maximum with solar light heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating downward, vacuum a portion of the adiabatic long lens (2d ) And various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the sunlight at a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and set the multi-length lens (2d) of clamp (80B) clamp Various energy conservation cycle united engines which were provided to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater Maximum increase in vaporization explosion power in (2) + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from the existing materials, various energy using the method of increasing the power generation amount by making the selected manufacturing long lens (2d) longer Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power to the maximum + Add the vaporization and explosion power and gravity acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) clamp with the split clamp (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Evaporative explosion power is maximized by the light heater (2) + evaporation explosion power + gravitational acceleration is added vertically downward in vacuum and divided vertically and divided into multiple clamp lenses (2 d) The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar With the optical heater (2), increase the vaporization and explosion power to the maximum + add the vaporization and explosion power + gravity acceleration in a vacuum vertically vertically downward to make the selected lens (2d) longer from the existing materials Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate downward vertically to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explode force maximum with the light heater (2) + add the vaporization explode force + gravity acceleration in the vacuum vertically vertically downward to make the adiabatic long lens (2d) and the sun light at a right angle in the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and set the multi-length lens (2d) of clamp (80B) clamp Various energy conservation cycle united engines which were provided to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater Maximum increase in vaporization explosion power in (2) + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from the existing materials, various energy using the method of increasing the power generation amount by making the selected manufacturing long lens (2d) longer Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power to the maximum + Add the vaporization and explosion power and gravity acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximal Increase + Evaporative Explosive Force + Gravitational Acceleration Added Vertically Downward in a Vacuum to Increase the Width of the Split Lens (80B) Tightening Long Lens (2d) to Increase Power Generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Upward in Vacuum Accelerate Vertically Down, Split and Provide Multiple Length Lenses (2d) with Fasteners (80B) Fastening in Set Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Upward in Vacuum Accelerate Vertically Downward from Existing Materials Various Energy Storage Cycle Combined Engines with a Method of Increasing Power Generation Capacity by Making Long Lenses (2d) Selected .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximal Increase + Evaporative Explosive Force + Gravity Acceleration Added Vertically Accelerated Vertically Downwards to Increase Concentrated Power Generation from Existing Lens Cross Section to Water (52b) Tube with Selected Sunlight Lens (2d) How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximal Increase + Evaporative Explosive Force + Gravity Acceleration Added Vertically Downward Accelerated Vertically to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum, and generate electricity Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Various energy storage cycles combined by increasing the width of the split lens (80B) and the length of the long lens (2d) by increasing the width of the split clamp (80B) by vertically increasing the vaporization explosion force + gravitational acceleration in a vacuum organ.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Evaporative explosion power + gravitational acceleration is accelerated vertically downward in a vacuum, and divided into multiple fasteners (80B) and a plurality of tightening lenses (2d) for energy storage. Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Various energy storage cycle combined engines with a method to increase the amount of power generation by lengthening large lenses (2d) selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Various energy storage cycles using a method of increasing the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the vaporization explosion power + gravitational acceleration vertically downward in a vacuum Coalition agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Evaporative explosion power + acceleration of gravity is additionally added vertically downward in a vacuum to keep the adiabatic long lens (2d) and sunlight at a right angle in the part brought close to the vacuum to save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Various energy storage cycles combined by increasing the width of the split lens (80B) and the length of the long lens (2d) by increasing the width of the split clamp (80B) by vertically increasing the vaporization explosion force + gravitational acceleration in a vacuum organ.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Evaporative explosion power + gravitational acceleration is accelerated vertically downward in a vacuum, and divided into multiple fasteners (80B) and a plurality of tightening lenses (2d) for energy storage. Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Various energy storage cycle combined engines with a method to increase the amount of power generation by lengthening large lenses (2d) selected from existing materials by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Various energy storage cycles using a method of increasing the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the vaporization explosion power + gravitational acceleration vertically downward in a vacuum Coalition agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Evaporative explosion power + acceleration of gravity is additionally added vertically downward in a vacuum to keep the adiabatic long lens (2d) and sunlight at a right angle in the part brought close to the vacuum to save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightened by the split clamp (80B), thereby increasing power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and multiple length lenses (2d) tightened to generate electricity Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, vertically accelerated downward from existing materials, combined with various energy storage cycles as a method of increasing power output by making a long lens (2d) manufactured selectively organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section lens (2 d) Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal air compression heat recovery + vaporization evaporative force + gravitational acceleration is added vertically downward to accelerate the width of the split fastener (80B) tightening the length of the long lens (2d) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to clamp the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in the vacuum add acceleration vertically downward, split Various energy storage cycle combined engines, in which the width of the long lens (2d) is tightened to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, split fastener (80B) Various energy storage cycle united engines having a method of increasing the power generation amount by increasing the width of the tightening long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, split tightening Tool (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d) tightened.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward, divided into multiple fasteners (80B) clamps (2d) The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate and split vertically and divide (80B) A variety of energy storage cycle combined engines with multiple tightening lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in the vacuum add acceleration vertically downward, split A variety of energy storage cycle combining engines, in which a plurality of long lenses (2d) for tightening the fasteners (80B) are provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in the vacuum + add evaporative explosion power + gravitational acceleration in the vacuum, accelerate vertically downward, divide and clamp A variety of energy storage cycle coalescing engines, in which a set of multiple long lenses (2d) for attachment (80B) tightening is provided to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add up vertically downward and divide Various energy storage cycle united engines, in which a set of multiple long lenses (2d) for tightening (80B) tightening is provided to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically downward in internal air under compression heat recovery and acceleration is made vertically downward from the existing material to make the selected manufacturing long lens (2d) longer and increase the power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the selected vertical lens from existing materials (2d The various energy preservation cycle united engines which made the power generation amount increase method by making the size large.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosion power + gravity acceleration in a vacuum add acceleration vertically downward, existing Various energy conservation cycle combined engine which made the power generation amount increase method by making the production long lens (2d) selected from materials.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to select from existing materials Various energy storage cycle combined engines with long production lens length (2d) and increased power generation method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward acceleration from existing materials Various energy storage cycle combined engines with selected production long lenses (2d) as long and large power generation capacity increasing methods.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravitational acceleration vertically downward and accelerate sunlight to the existing lens cross section with selected cross section lens (2d) water (52b ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate the cross section lens from the existing lens cross section Various energy preservation cycle combined engine which made the sunlight the water (52b) pipe in 2d) and the method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosion power + gravity acceleration in a vacuum add acceleration vertically downward, existing Various energy conservation cycle combined engine which made the sunlight a water (52b) tube the concentrated electric power generation increase method with the lens cross section and the selection section long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward, from the existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in a vacuum add acceleration vertically downward, existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected cross-section long lens (2d) and the concentrated power generation amount increase method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is accelerated vertically downward, the long lens (2d) of the heat insulation is perpendicular to the sun at the part close to the vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward, length of heat insulation in the part close to vacuum Various energy conservation cycle combined engine which kept the lens (2d) and the sun light in the vicinity of the right angle to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in a vacuum add acceleration vertically downward, vacuum A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the part close to each other.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in a vertical direction accelerated vertically downward and brought close to vacuum A variety of energy storage cycle coalescing engines with a method of increasing power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the part.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward and approach vacuum A variety of energy storage cycle coalescing engines with a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the other part.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Various energy storage cycle combined engine with power generation method to add internal heat to compression heat recovery + vaporization explosion power + gravity acceleration in the vacuum vertically downward.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Various energy storage cycle combined engine with power generation method of adding internal heat (28a) to compression heat recovery with heat pump (1G) + vaporization explosion power + gravity acceleration in vacuum in the downward direction to accelerate vertically.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of internal air + add vaporization power + gravity acceleration in vacuum + add various energy as a power generation method to accelerate vertically downward Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporization and explosion power in vacuum + additional gravity acceleration Various power generation methods to accelerate vertically downward Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heating method (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum is accelerated vertically downward to increase the width of the long lens (2 d) by tightening the split clamp (80 B) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + Add various kinds of energy storage cycle combined engines by increasing evaporation power + gravity acceleration vertically in vacuum and accelerating vertically downward from existing materials to make the production long lens (2d) longer.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization explosion force + gravitational acceleration in vacuum + acceleration vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected section lens (2 d) And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the width of the split clamp (80B) tightening long lens (2d) Various energy storage cycle united engines were used to increase power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, divide and clamp multiple fasteners (80B) lens (2d) A variety of energy storage cycle coalescing engines with a set of methods to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerated downward from the existing materials to increase the power generation amount by making the selected manufacturing long lens (2d) long And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosive power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) 52b) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in the vacuum vertically accelerated downwards, a long lens (2d) and solar light with thermal insulation in the part close to the vacuum Various energy storage cycle combined engines that maintain power generation capacity at near right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the width of the long lens (2d) tightening the split clamp (80B) by accelerating vertically downwards by adding the vaporization explosion power + gravitational acceleration in a + sun light heater (2) + vacuum etc. Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Set the multi-long lens (2d) of the clamp (80B) clamp by dividing vertically etc by adding the vaporization explosion power + gravitational acceleration in the vacuum + solar light heater (2) + vacuum vertically downward Various energy storage cycle united engines which were provided in the method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Evaporative explosion power + gravity acceleration is added vertically downward in a vacuum + solar light heater (2) + vacuum, etc. Various materials are used to increase the amount of power generation by selecting a long lens (2d) from existing materials Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add solar light (2) + evaporative explosion power + gravitational acceleration in a vacuum, etc. Add vertical rays vertically downward, and select water from the existing lens cross section (2d) Various energy storage cycle united engines with a method to increase centralized power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Evaporative explosion power + gravity acceleration is added vertically downward in a vacuum + solar light (2) + vacuum, etc. in the vacuum and so on, the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy conservation cycle united engines that were maintained to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the width of the split clamp (80B) tightening long lens (2d) Various energy storage cycle united engines were used to increase power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, divide and clamp multiple fasteners (80B) lens (2d) A variety of energy storage cycle coalescing engines with a set of methods to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerated downward from the existing materials to increase the power generation amount by making the selected manufacturing long lens (2d) long And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosive power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) 52b) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to tubes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in the vacuum vertically accelerated downwards, a long lens (2d) and solar light with thermal insulation in the part close to the vacuum Various energy storage cycle combined engines that maintain power generation capacity at near right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heating method (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum is accelerated vertically downward to increase the width of the long lens (2 d) by tightening the split clamp (80 B) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + Add various kinds of energy storage cycle combined engines by increasing evaporation power + gravity acceleration vertically in vacuum and accelerating vertically downward from existing materials to make the production long lens (2d) longer.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization explosion force + gravitational acceleration in vacuum + acceleration vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected section lens (2 d) And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and save energy Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 A variety of methods to increase the amount of power generation by providing a set of multiple long lenses (2d) divided by tightening the clamp (80B) by dividing vertically and adding vertically downward in a vacuum + vaporization and explosion power + gravitational acceleration Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add various kinds of energy storage cycle combined engine with a method of increasing power generation amount by lengthening large lens (2d) selected from existing materials by adding vaporization explosion power + gravity acceleration vertically downward in vacuum.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 Various types of energy to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward, adding the vaporization exploding force + gravitational acceleration vertically in + vacuum. Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, and keep the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to make various methods to increase power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Add the vaporization explosion power + gravitational acceleration in the left and right up and down + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple clamp lenses (2d) The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add the vaporization explosion power + gravitational acceleration in the solar light heater (2) + vacuum vertically accelerated downward from the existing material to make the selected lens (2d) longer and increase the power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add sunlight + heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add sunlight and heat (2d) + sunlight in the part close to the vacuum by accelerating the vaporization explosion power + gravitational acceleration vertically downward in + sunlight heater (2) + vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add + Evaporative Explosion Force + Gravity Acceleration in Vacuum + Solar Light Heater (2) + Vacuum Accelerate vertically downward to increase the width of the long lens (2d) clamp on the split clamp (80B) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add + Evaporative Explosion Force + Gravity Acceleration in a Vacuum + Solar Light Heater (2) + Vacuum Accelerate vertically downward and divide and set a multi-long lens (2d) with a clamp (80B) clamp Various energy conservation cycle united engines which were provided to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add solar light heater (2) + add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to make selected lenses from existing materials longer by using various lenses. Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add solar light (2) + evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Make the + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle near the part near the vacuum The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Add the vaporization explosion power + gravitational acceleration in the left and right up and down + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy storage cycle united engines that increased power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple clamp lenses (2d) The various energy storage cycle united engines were provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add the vaporization explosion power + gravitational acceleration in the solar light heater (2) + vacuum vertically accelerated downward from the existing material to make the selected lens (2d) longer and increase the power generation Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add sunlight + heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) ) Various energy storage cycle combined engines with a method of increasing the amount of concentrated power generation to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add sunlight and heat (2d) + sunlight in the part close to the vacuum by accelerating the vaporization explosion power + gravitational acceleration vertically downward in + sunlight heater (2) + vacuum Various energy storage cycle united engines which were maintained in the vicinity to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the vaporization explosion force + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Generator (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamps to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + Add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select power from existing materials and use a long lens (2d) as a method to increase power output.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Method (2) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Method (2) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Various kinds of energy storage cycles were made by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically increasing the vaporization explosion power + gravitational acceleration downward in + vacuum. Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Various energy is used to increase the amount of power generation by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing it and dividing vertically by adding the vaporization explosion power + gravitational acceleration vertically downward in + vacuum. Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Various energy storage cycle combined engines with a method to increase power generation capacity by increasing the vaporization explosion power + gravity acceleration in a vacuum and accelerating vertically downward to make the selected lens (2d) longer from the existing materials.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Various energy conservation methods to increase the amount of concentrated electricity generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating it vertically downward by adding the vaporization explosion power + gravitational acceleration vertically in a + vacuum Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Various energy is added by accelerating the vaporization explosion power + gravity acceleration in the vacuum and accelerating vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to increase power generation Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens Various energy storage cycle united engines with a method of increasing power generation capacity by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split and clamp (80B) clamp A variety of energy storage cycle coalescing engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left upside down + solar light heater (2) internal heat air compression heat recovery + vaporization explosive force + add gravitational acceleration vertically accelerated downward from existing materials selected lens long lens (2d) As a way to increase the amount of power generation and various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select cross section lens from existing lens cross section (2d) Various energy conservation cycle combined engine which made the sunlight a water (52b) pipe and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the left and right up and down + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated down, the part near the vacuum heat insulation long lens (2d ) And various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the sunlight at a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion force + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens (2d) Various energy storage cycle united engines were used to increase power generation and increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward divided into multiple clamps (80B) tightening lens Various energy storage cycle united engines, which are provided with (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward from existing materials selected long lens (2d) long power generation Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select sunlight from the existing lens cross section with selected cross section lens (2d) Various energy storage cycle combined engines with water (52b) pipe as a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion force + add gravity acceleration in the vacuum vertically accelerated downwards to a vacuum near the adiabatic long lens (2d) and the sun A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens Various energy storage cycle united engines with a method of increasing power generation capacity by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split and clamp (80B) clamp A variety of energy storage cycle coalescing engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left upside down + solar light heater (2) internal heat air compression heat recovery + vaporization explosive force + add gravitational acceleration vertically accelerated downward from existing materials selected lens long lens (2d) As a way to increase the amount of power generation and various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select cross section lens from existing lens cross section (2d) Various energy conservation cycle combined engine which made the sunlight a water (52b) pipe and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the left and right up and down + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated down, the part near the vacuum heat insulation long lens (2d ) And various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the sunlight at a right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + evaporation in the vacuum + acceleration of gravity acceleration is added vertically downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy storage cycle united engines with a method to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + acceleration of gravity is added vertically downward to split, split and clamp (80B) clamp multiple length lenses (2d) Various energy conservation cycle united engines which were provided to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Device (2) Add heat inside the air to compression heat recovery + add to vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward to make the selected lens from existing materials longer by using various lenses. Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravitational acceleration is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section long lens (2 d) Various energy storage cycle united engines with a method of increasing the amount of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravity acceleration is added vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum The various energy conservation cycle united engine which made the power generation amount increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) How to increase the amount of power generation by increasing the width of the long lens (2d) by tightening the split fastener (80B) by accelerating the internal air into compression heat recovery + vacuum, vaporization explosion power + gravitational acceleration vertically downward And various energy conservation cycle coalition agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + vaporization evaporative force + additional gravity acceleration is accelerated vertically downward, divided into multiple fasteners (80B) tightening by providing multiple length lenses (2d) as a set to generate electricity Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Various energy conservation cycle combined engine which made the power generation amount increase method by making internal air the compression heat recovery + evaporation vaporization power + gravity acceleration in the vacuum and add vertically downward vertically to make the selected long lens (2d) from existing materials longer .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + evaporative explosion power + additional gravitational acceleration accelerated vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d) How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air + addition of vaporization and explosion power in vacuum and acceleration of gravity acceleration vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add vaporization explosion force + Gravity acceleration in vacuum Accelerate vertically downward and divide clamp Tool (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d) tightened.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat (28a) inside the heat pump (1G) Compressive heat recovery + Evaporative explosive power + Gravity acceleration is added vertically downward to accelerate split and split Various energy storage cycle united engines, in which a set of multiple long lenses (2d) for tightening (80B) tightening is provided to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + Solar heater (2) Internal heat (28a) with heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravity acceleration added in vacuum vertically accelerated downward from existing materials Various energy storage cycle combined engines with selected production long lenses (2d) as long and large power generation capacity increasing methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added in vertical direction accelerated vertically downward, existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected cross-section long lens (2d) and the concentrated power generation amount increase method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the left and right up and down + solar light heater (2) Compress heat recovery with heat pump (1G) + internal heat (1G) + add vaporization explosion power + gravity acceleration in the vacuum Vertically accelerate downward and approach vacuum A variety of energy storage cycle coalescing engines with a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the other part.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Sunlight Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive Heat Recovery + Evaporative Explosion Force + Gravity Acceleration Added in Vertical Downwards Vertically Downward, Split Fastener (80B) 2.) Various energy storage cycle combined engines in which the power generation amount is increased by increasing the width of the clamping long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Sunlight heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and clamp (80B) Various energy storage cycle united engines provided with a plurality of tightening long lenses (2d) as a set to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration accelerated vertically downward, select manufacturing length from existing materials Various energy conservation cycle combined engines which made the lens (2d) long and made power generation increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in a vacuum to accelerate vertically downward, select cross section from existing lens cross section Various energy conservation cycle combined engine which made the sunlight a water (52b) tube with a long lens (2d) and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + solar light (2) internal heat air (28a) with heat pump (1 G) compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward, in the part close to vacuum A variety of energy storage cycle coalescing engines with a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at right angles.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add vaporization explosion force + Gravity acceleration in vacuum Accelerate vertically downward and divide clamp Tool (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d) tightened.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat (28a) inside the heat pump (1G) Compressive heat recovery + Evaporative explosive power + Gravity acceleration is added vertically downward to accelerate split and split Various energy storage cycle united engines, in which a set of multiple long lenses (2d) for tightening (80B) tightening is provided to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + Solar heater (2) Internal heat (28a) with heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravity acceleration added in vacuum vertically accelerated downward from existing materials Various energy storage cycle combined engines with selected production long lenses (2d) as long and large power generation capacity increasing methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added in vertical direction accelerated vertically downward, existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected cross-section long lens (2d) and the concentrated power generation amount increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the left and right up and down + solar light heater (2) Compress heat recovery with heat pump (1G) + internal heat (1G) + add vaporization explosion power + gravity acceleration in the vacuum Vertically accelerate downward and approach vacuum A variety of energy storage cycle coalescing engines with a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the other part.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the split clamp (80B) clamp long lens Various energy storage cycle united engines with a method of increasing power generation capacity by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + add vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, split and clamp (80B) clamp A variety of energy storage cycle coalescing engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to make selected long lens (2d) long from existing materials As a way to increase the amount of power generation and various energy storage cycles combined engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction accelerated vertically downward and select section length lens (2d) from the existing lens section Various energy conservation cycle combined engine which made the sunlight a water (52b) pipe and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Heat recovery of the internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and the adiabatic long lens (2d) ) And various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the sunlight at a right angle.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power in vacuum + acceleration of gravity is added vertically downward to accelerate the split clamp (80B) of the long lens (2d) Various energy storage cycle united engines with a method of increasing power generation capacity by increasing width.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat (28a) compressed heat recovery with heat pump (1G) + vaporization and explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to divide and clamp multiple clamp lenses (80B) Various energy conservation cycle united engines which were provided with 2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in vacuum vertically accelerated downward from existing materials to increase power generation by making selected lens (2d) longer How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat the internal air (28a) with a heat pump (1G) + add evaporative explosion power + gravity acceleration in a vacuum + accelerate vertically downward to make the water of sunlight with a cross section lens (2d) from the existing lens cross section (52b) Various energy storage cycle united engines using a method of increasing the amount of concentrated power generation to a pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization explosion power + additional gravity acceleration in a vacuum vertically accelerated downward to a vacuum, close to the vacuum a long lens (2d) and sunlight A variety of energy storage cycle coalescing engines were used to maintain power generation near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) The various energy storage cycle combining engines have been developed to increase the width of the long lens (2d) by tightening the split clamp (80B) to accelerate the power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) The various energy storage cycle coalescing engines were divided into several sets of multiple lenses (2d), which were divided into two sets of multiple fasteners (80B) for tightening.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Various energy conservation cycle coalescing engines were developed to accelerate power generation methods by increasing the power generation capacity by selecting long lenses (2d) from existing materials.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Various energy storage cycle coalescing engines were developed to accelerate sunlight and to increase the amount of concentrated power generation into water (52b) tubes by using existing lens cross sections with selected cross section lenses (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) The various energy storage cycle coalescing engines were designed to increase the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles near the vacuum by accelerating to the vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward The various energy storage cycle combination engine which made the power generation amount increase method by increasing the width of the long lens (2d) by tightening the split clamp (80B).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward The various energy storage cycle united engines were divided into multiple power lenses (2d) for tightening by clamping (80B) and provided as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward Various energy storage cycle coalescing engines, which are selected from existing materials and have a long lens size (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward Various energy storage cycle coalescing engines have a method of increasing the amount of concentrated power generation to a tube of water (52b) by using a lens (2d) to select sunlight from the cross section of the existing lens.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) The various energy storage cycle combining engines have been developed to increase the width of the long lens (2d) by tightening the split clamp (80B) to accelerate the power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) The various energy storage cycle coalescing engines were divided into several sets of multiple lenses (2d), which were divided into two sets of multiple fasteners (80B) for tightening.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Various energy conservation cycle coalescing engines were developed to accelerate power generation methods by increasing the power generation capacity by selecting long lenses (2d) from existing materials.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Various energy storage cycle coalescing engines were developed to accelerate sunlight and to increase the amount of concentrated power generation into water (52b) tubes by using existing lens cross sections with selected cross section lenses (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) The various energy storage cycle coalescing engines were designed to increase the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles near the vacuum by accelerating to the vacuum.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, split fastener (80B) Various energy storage cycle united engines having a method of increasing the power generation amount by increasing the width of the tightening long lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten A variety of energy storage cycle coalescing engines, in which a set of multiple long lenses (2d) for attachment (80B) tightening is provided to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy storage cycle combined engines with long production lens length (2d) and increased power generation method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward from the existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + evaporative explosive force + additional gravity acceleration in the vacuum and accelerate vertically downward to bring it close to the vacuum A variety of energy storage cycle coalescing engines with a method of increasing power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the part.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to clamp the split fastener (80B) Various energy storage cycle combined engine which increased the width of the attached long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + gravitational acceleration in the vacuum + add vertical acceleration vertically and divide to divide the fastener (80B 2.) Various energy storage cycle united engines provided with a plurality of tightening long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to make long lens selected from existing materials Various energy conservation cycle combined engine which made power generation amount increase method by making 2d longer.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to select the selected lens from the existing lens cross section Various energy preservation cycle united engines which made the sunlight the water (52b) tube in (2d) method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum vertically and accelerate vertically downward to adiabatic areas near the vacuum Various energy conservation cycle combined engine which made the long lens (2d) and sunlight maintain near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward The various energy storage cycle combination engine which made the power generation amount increase method by increasing the width of the long lens (2d) by tightening the split clamp (80B).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward The various energy storage cycle united engines were divided into multiple power lenses (2d) for tightening by clamping (80B) and provided as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Various energy storage cycle coalescing engines, which are selected from existing materials and have a long lens size (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Various energy storage cycle coalescing engines have a method of increasing the amount of concentrated power generation to a tube of water (52b) by using a lens (2d) to select sunlight from the cross section of the existing lens.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to divide Various energy storage cycle combined engines, in which the width of the long lens (2d) is tightened to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to divide A variety of energy storage cycle combining engines, in which a plurality of long lenses (2d) for tightening the fasteners (80B) are provided as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the existing Various energy conservation cycle combined engine which made the power generation amount increase method by making the production long lens (2d) selected from materials.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the existing Various energy conservation cycle combined engine which made the sunlight a water (52b) tube the concentrated electric power generation increase method with the lens cross section and the selection section long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the vacuum A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the part close to each other.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward The various energy storage cycle combination engine which made the power generation amount increase method by increasing the width of the long lens (2d) by tightening the split clamp (80B).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward The various energy storage cycle united engines were divided into multiple power lenses (2d) for tightening by clamping (80B) and provided as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Various energy storage cycle coalescing engines, which are selected from existing materials and have a long lens size (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Various energy storage cycle coalescing engines have a method of increasing the amount of concentrated power generation to a tube of water (52b) by using a lens (2d) to select sunlight from the cross section of the existing lens.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward A variety of energy storage cycle coalescing engines were used to increase the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) + add vaporizing power + gravitational acceleration in vacuum and accelerate vertically downward, divided fastener (80B) Various energy storage cycle combined engines that increase power generation capacity by increasing the width of the clamping long lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air heat (28b) Add the vaporization explosion power + gravity acceleration in the vacuum + add vacuum acceleration vertically downward, divide and clamp 80B) Various energy storage cycle united engines provided with a plurality of clamping long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) internal air heat compressed air heat (28b) heat the water (52b) in the vacuum + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, to produce a long lens selected from existing materials Various energy storage cycle united engines with a method of increasing power generation by making (2d) longer.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the compressed air heat (28b) by the amount of heat of the inside air Heat the water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to select the selected cross section length from the existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to adiabatic part near the vacuum Various energy storage cycle combined engine which made the long lens (2d) and sunlight maintain at right angle vicinity and increase electric power generation method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to lengthen the split clamp (80B) clamp Various energy storage cycle combined engine which increased the width of the lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and clamp the fastener (80B) A variety of energy storage cycle combined engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make the selected production long lens (2d) from existing materials Various energy conservation cycle united engines with long and large power generation capacity increasing methods.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to select cross section lens from existing lens cross section (2d) In the water (52b) tube, various energy storage cycle combined engines were used to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravity acceleration in the vacuum + accelerate vertically downward, and adiabatic long lens in the part close to the vacuum ( 2d) A variety of energy storage cycle coalescing engines with a method to increase the amount of power generation by maintaining the sunlight near at a right angle.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Then, various energy storage cycle combining engines are used to increase the power generation amount by increasing the width of the long lens (2d) by tightening the split clamp (80B).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum A variety of energy storage cycle coalescing engines have been divided and provided with a plurality of long lenses (2d) of tightening (80B) tightening as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Various energy storage cycle coalescing engines were selected from existing materials and made long lenses (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Various energy storage cycle coalescing engines have a method of increasing the amount of concentrated power generation to a tube of water (52b) by using a lens (2d) to select sunlight from the cross section of the existing lens.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum The various energy storage cycle coalescing engines are a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Various energy storage cycle combined engines that increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, A variety of energy storage cycle coalescing engines, which are divided and provided with a plurality of lenses (2d) of tightening (80B) tightening as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Selected energy storage materials from existing materials A variety of energy storage cycle coalescing engines with a long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Various energy conservation cycle combined engines which made the sunlight a water (52b) tube with a method of increasing the amount of electric power generation from the existing lens cross section to the selected section long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, A variety of energy storage cycle coalescing engines with a method to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Then, various energy storage cycle combining engines are used to increase the power generation amount by increasing the width of the long lens (2d) by tightening the split clamp (80B).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum A variety of energy storage cycle coalescing engines have been divided and provided with a plurality of long lenses (2d) of tightening (80B) tightening as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Various energy storage cycle coalescing engines were selected from existing materials and made long lenses (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Various energy storage cycle coalescing engines have a method of increasing the amount of concentrated power generation to a tube of water (52b) by using a lens (2d) to select sunlight from the cross section of the existing lens.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum The various energy storage cycle coalescing engines are a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and the sunlight at a right angle near the vacuum.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward, split fastener (80B 2.) Various energy storage cycle combined engines in which the power generation amount is increased by increasing the width of the clamping long lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp (80B) Various energy storage cycle united engines provided with a plurality of tightening long lenses (2d) as a set to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward and select manufacturing length from existing materials Various energy conservation cycle combined engines which made the lens (2d) long and made power generation increase method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + Fuel injection and burn it + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward to select cross section from existing lens cross section Various energy conservation cycle combined engine which made the sunlight a water (52b) tube with a long lens (2d) and a method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward to the part near the vacuum A variety of energy storage cycle coalescing engines with a method of increasing the amount of power generation by maintaining the adiabatic long lens (2d) and sunlight at right angles.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward to clamp the split fastener (80B) Various energy storage cycle combined engine which made the power generation amount increase method by increasing the width of the long lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward to divide and clamp the fastener (80B) A variety of energy storage cycle combined engines with a set of multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens made from existing material, long lens (2d) The various energy preservation cycle united engine which made the power generation amount increase method as a long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel-injection-combustion + add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select a lens from the existing lens cross-section A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation to the sunlight in the water (52b) tube.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerating downward, and adiabatic long lens near the vacuum (2d) and various energy conservation cycle united engines that maintain the sunlight at a right angle in the vicinity of the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosion power maximum with the solar heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating vertically downward, the length of the split clamp (80B) clamp Various energy storage cycle combined engine which increased the width of the lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosion power with the sun light heater (2) + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, divide and tighten the clamp (80B) A variety of energy storage cycle combined engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the left and right up and down + increase the vaporization explosive power with the sun light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating vertically downward, select manufacturing long lens (2d) from existing materials Various energy conservation cycle united engines with long and large power generation capacity increasing methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosive power maximum with the solar light heater (2) + add the vaporization explosive power + gravitational acceleration in a vacuum, accelerate vertically downward, select cross section lens from the existing lens cross section (2d) In the water (52b) tube, various energy storage cycle combined engines were used to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explode force with the sun light heater (2) + add evaporative explode force + gravitational acceleration in vacuum add vertical acceleration vertically and adiabatic long lens in the part close to vacuum 2d) A variety of energy storage cycle coalescing engines with a method to increase the amount of power generation by maintaining the sunlight near at a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum vertically accelerating downward and split clamp (80B) tightening long lens (2d A variety of energy storage cycle coalescing engines with a method of increasing power generation capacity by increasing the width of).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization explosion power maximum with + solar light heater (2) + add the vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, split and clamp multiple lengths of clamp (80B) Various energy storage cycle united engines with a set of lenses (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate vertically downward and select power from existing materials by using a long lens (2d) for power generation Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum vertically accelerate downward vertically and select sunlight from the existing lens cross section with the selected cross section lens (2d) A variety of energy storage cycle coalescing engine with a method of increasing the amount of power generation to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Increase the vaporization and explosion power at maximum with the solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate vertically downward, and adiabatic long lens (2d) with the part close to the vacuum A variety of energy storage cycle coalescing engines with a method to increase the amount of power generation by maintaining the sunlight near the right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosion power maximum with the solar heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating vertically downward, the length of the split clamp (80B) clamp Various energy storage cycle combined engine which increased the width of the lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosion power with the sun light heater (2) + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, divide and tighten the clamp (80B) A variety of energy storage cycle combined engines with multiple long lenses (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the left and right up and down + increase the vaporization explosive power with the sun light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating vertically downward, select manufacturing long lens (2d) from existing materials Various energy conservation cycle united engines with long and large power generation capacity increasing methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosive power maximum with the solar light heater (2) + add the vaporization explosive power + gravitational acceleration in a vacuum, accelerate vertically downward, select cross section lens from the existing lens cross section (2d) In the water (52b) tube, various energy storage cycle combined engines were used to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explode force with the sun light heater (2) + add evaporative explode force + gravitational acceleration in vacuum add vertical acceleration vertically and adiabatic long lens in the part close to vacuum 2d) A variety of energy storage cycle coalescing engines with a method to increase the amount of power generation by maintaining the sunlight near at a right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the container (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to increase the width of the split lens (80B) clamping long lens (2d) Energy storage cycle united engine with a method of increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle united engines which were provided in the method of increasing the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to make the selected lens (2d) longer from the existing materials. Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is increased to the maximum + the evaporation explosion power + gravitational acceleration is added vertically downward in the vacuum chamber (2) and the sunlight is accelerated by the vertical cross section from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle united engines with a method to increase centralized power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the vessel (2) + the vaporization explosion power + gravity acceleration is added vertically downward in vacuum and accelerated vertically downward, and the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy conservation cycle united engines that were maintained to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Increase the power generation amount by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating the vaporization explosion power + gravitational acceleration vertically downward in the maximum + vaporization in the vacuum How to make various energy conservation cycles coalesced engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative explosion power maximum increase + Evaporative explosion power + gravitational acceleration is added vertically in a vacuum to accelerate vertically divided, divided into multiple fasteners (80B) tightening by providing multiple lenses (2d) as a set to generate electricity Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative explosion power maximum increase + Evaporative explosion power + gravity acceleration added vertically in vacuum vertically accelerated downward from existing materials selected manufacturing long lens (2d) as a method of increasing the amount of power generation combined energy storage cycle organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative explosion power maximum increase + Evaporative explosion power + gravitational acceleration added vertically in vacuum accelerated vertically downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy conservation cycle united engines with increasing method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Upward in Vacuum Accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle near the area near the vacuum to generate electricity Various energy conservation cycle coalescing engine with quantity increase method.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic long-length lens (2d) width increase to collect sunlight + vaporization evaporative force + gravity acceleration in vacuum add vertical downward acceleration, split clamp (80B To increase power generation capacity by increasing the width of the tightening long lens (2d) Various energy conservation cycle combination of electric power generation method in which opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine are provided in multiple stages organ.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydropower Solar power Photovoltaic long lens (2d) to increase the width of the solar light collecting method + evaporation in the vacuum + force of gravity + acceleration of gravity add vertically downward, split and clamp (80B) Various energy conservation of the power generation method where multiple series long blade (collared wheel moving wheel water turbine) and opposite series all rotating blade elastic wheel gas turbine are installed in multiple stages aiming at increase of power generation by providing multiple tightening lenses (2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation long lens (2d) width increase and collect solar light + add evaporative explosion power + gravity acceleration in vacuum vertically accelerated downward, select manufacturing length from existing materials Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by making lens (2d) long.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro aerodynamic power Solar power generating long lens (2d) to increase the width of solar light collecting method + add evaporative explosion power + gravitational acceleration in vacuum vertically accelerated downward, from the existing lens cross section Various energy conservation cycles of the power generation method that multistage opposing turbine blade water turbines and opposed turbine blade gas turbines are installed in multiple stages aiming at increasing the concentrated power generation amount of sunlight to water (52b) tube with long lens (2d) Coalition agency.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro aerodynamic power Solar power method of increasing the width of the long lens (2d) to collect sunlight + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, in the part close to the vacuum Various energy conservation of power generation method with multistage opposed gas turbines with opposed series all moving blades water turbine and opposed series all moving blades gas turbine to maintain power generation amount by maintaining adiabatic long lens (2d) and sunlight at right angle near Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Power generation method with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines installed in multiple stages to increase power generation by increasing the width of the split fastener (80B) fixed long lens (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた狙う各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Separately set multiple long lenses (2d) for tightening fasteners (80B) and set them as a set to increase power generation by aiming to install opposite series all moving blade spring wheel water turbine and opposite series all moving blade spring wheel gas turbine in multiple stages Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Various energy storage cycle coalescence engines of the power generation method which installed facing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) selected from existing materials.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, From the existing lens section to select solar light with water (52b) pipe with selected cross-section length lens (2d) Power generation with facing in-line all moving blade springing car water turbine · facing in-line all moving wing springing car gas turbine installed in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all-rotor-bottled-wheel water turbine · Opposite-series-all-rotor alligator wing-impacted car gas turbine is installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near the vacuum. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Power generation method with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines installed in multiple stages to increase power generation by increasing the width of the split fastener (80B) fixed long lens (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all-rotor-impeller wheel water turbine · Opposite-in-line all-rotor vane-impact wheel gas turbine is provided in multiple stages by aiming at increasing power generation by providing multiple long lenses (2d) of divided fasteners (80B) and tightening. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Various energy storage cycle coalescence engines of the power generation method which installed facing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) selected from existing materials.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, From the existing lens section to select solar light with water (52b) pipe with selected cross-section length lens (2d) Power generation with facing in-line all moving blade springing car water turbine · facing in-line all moving wing springing car gas turbine installed in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all-rotor-bottled-wheel water turbine · Opposite-series-all-rotor alligator wing-impacted car gas turbine is installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near the vacuum. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Opposite in-line all-rotor blade springing wheel water turbine, opposite-in-line total motion for increasing power generation by increasing the width of the long lens (2d) by clamping the gravity acceleration by adding vertically downward downward and increasing the width of the long lens (2d) Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated downward vertically and divided to provide a set of multiple clamp lenses (2d) for tightening (80B) tightening to increase power generation. Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Add Gravity Acceleration Upward vertically to accelerate vertically downwards, select from existing materials Long lens (2d) to increase power output Increase in opposing series All moving blades Water turbines · Opposed in series All moving blades Gas turbines in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section lens (2d). Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Add Gravity Acceleration Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increased power generation by facing series All moving blades Bumping wheel water turbine · Opposing series Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Opposite in-line all moving blade springing water to increase power generation by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by increasing the vaporization explosion power + gravity acceleration vertically downward and increasing the divided clamp (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) Increase the power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) by accelerating the compression heat recovery + evaporation vaporization power + gravitational acceleration vertically downward in (1 G) + vacuum The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount by increasing the width.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Opposite series all moving blades aiming to increase power generation by installing set of multi-length lenses (2d) by clamping and adding clamps (80B) and tightening by accelerating vertically downward by adding vaporization and explosion power + gravitational acceleration inside. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward to divide, and provide multiple long lenses (2d) of clamp (80B) clamp as a set to generate electricity Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy preservation cycle combined engines of the power generation method which set up 2 d) as a set and aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided in a set and aimed at the increase in the amount of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) made from existing materials. Opposite Series All Blades Bumping Wheel Water Turbine · Opposed Series All Blade Bumping Wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) Countermeasure in-line all-wheels ballistic wheel aiming to increase power output by selectively producing a long lens (2d) selected from existing materials by adding compression heat recovery + evaporation evaporative explosion power + gravitational acceleration in vacuum in + 1 vacuum Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens from the existing material longer and increase the power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Evaporative force + acceleration of gravity added in the vertical direction to accelerate vertically downward, to increase the amount of concentrated power generation from the existing lens cross-section to the sunlight (water tube 52b) tube with selected cross-section length lens (2d) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section long lens (2 d) Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum In the case of opposing series all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at the portion close to vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in vacuum, vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation near the right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages to aim at the power generation amount increase maintained by.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Various types of power generation methods in which opposing series all moving blade impacting wheel water turbine and opposing series all moving blade impacting wheel gas turbine are provided in multiple stages aiming at the same water volume maximum power generation by adding vaporization explosion power + gravity acceleration vertically downward in the inside Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1 G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward downward to achieve the same water volume maximum power generation opposed series all moving blade water-impeller car water turbine, opposite series all moving blade flexible-wheel gas turbine gas turbine Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to achieve the same water volume maximum power generation Opposed series All moving blades Bumping wheel water turbine · Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with air heat (28b) + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to achieve the same amount of water maximum generating amount Opposing in-line all moving blade Bumping wheel Water turbine · Opposing in-line all Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) + fuel injection and combustion + add vaporization and explosion power in a vacuum + accelerate the gravity vertically downward to achieve the same water volume and maximum power generation Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, Power generation method with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines installed in multiple stages to increase power generation by increasing the width of the split fastener (80B) fixed long lens (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, Opposite in-line all-rotor-impeller wheel water turbine · Opposite-in-line all-rotor vane-impact wheel gas turbine is provided in multiple stages by aiming at increasing power generation by providing multiple long lenses (2d) of divided fasteners (80B) and tightening. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, Various energy storage cycle coalescence engines of the power generation method which installed facing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) selected from existing materials.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, From the existing lens section to select solar light with water (52b) pipe with selected cross-section length lens (2d) Power generation with facing in-line all moving blade springing car water turbine · facing in-line all moving wing springing car gas turbine installed in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, Opposite in-line all-rotor-bottled-wheel water turbine · Opposite-series-all-rotor alligator wing-impacted car gas turbine is installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near the vacuum. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade springing wheel to increase power generation by increasing the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Accelerating in the vertical direction downward, dividing and installing multiple long lenses (2d) of tightening tool (80B) tightening as a set to increase power generation Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line total movement Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Opposite in-line all-rotor-bottled wheel water turbine · Opposed-series all-wafer-vane-wheel gas turbine in multiple stages to increase power generation by accelerating vertically downward and increasing production capacity by selecting long lenses (2d) from existing materials How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Opposite in-line all moving blades Bumping wheel Water turbine · Opposing in-line all moving blades aiming to increase concentrated power output to water (52b) pipe by accelerating sunlight downward with existing lens cross section to select section long lens (2d) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Accelerating downward vertically to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increasing power generation by opposing series all moving blades Bumping wheel water turbine ・ opposed series total motion Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically Accelerate in the downward direction and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade springing wheel gas gas aiming at increase of power generation by providing a set of multiple long lenses (2d) of divided and tightened fasteners (80B) to accelerate downward. Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically Accelerating downward, select from existing materials and increase the power output by selecting long lenses (2d) selected from existing materials Various types of power generation methods in which opposing series full moving blade spring wheel water turbine · opposing series full moving blade spring wheel gas turbine are provided in multiple stages Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically Accelerating downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the sunlight through the water (52b) pipe with the selected cross-section length lens (2d) Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically Opposite in-line all moving blade springing car water turbine, facing in-line all moving wing springing car gas aim to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at right angle near the vacuum by accelerating downward. Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade springing wheel to increase power generation by increasing the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Accelerating in the vertical direction downward, dividing and installing multiple long lenses (2d) of tightening tool (80B) tightening as a set to increase power generation Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line total movement Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite in-line all-rotor-bottled wheel water turbine · Opposed-series all-wafer-vane-wheel gas turbine in multiple stages to increase power generation by accelerating vertically downward and increasing production capacity by selecting long lenses (2d) from existing materials How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite in-line all moving blades Bumping wheel Water turbine · Opposing in-line all moving blades aiming to increase concentrated power output to water (52b) pipe by accelerating sunlight downward with existing lens cross section to select section long lens (2d) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Accelerating downward vertically to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increasing power generation by opposing series all moving blades Bumping wheel water turbine ・ opposed series total motion Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, Power generation method with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines installed in multiple stages to increase power generation by increasing the width of the split fastener (80B) fixed long lens (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, A variety of energy storage cycle coalescing engines, which are divided and provided with a plurality of lenses (2d) of tightening (80B) tightening as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, Various energy storage cycle coalescence engines of the power generation method which installed facing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) selected from existing materials.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, From the existing lens section to select solar light with water (52b) pipe with selected cross-section length lens (2d) Power generation with facing in-line all moving blade springing car water turbine · facing in-line all moving wing springing car gas turbine installed in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, Opposite in-line all-rotor-bottled-wheel water turbine · Opposite-series-all-rotor alligator wing-impacted car gas turbine is installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near the vacuum. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Piping Equipment Method + Storage Battery Drive Various Motor Vehicles Plus + Vaporization Explosive Force + Gravity Acceleration in Vacuum Additional Vertical Downward Acceleration, Split Fastening Tool (80B) Various energy conservation of the power generation method which installed opposing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of tightening long lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles Plus + Evaporative Explosive Force + Gravity Acceleration in Vacuum Accelerate vertically downward, divide and clamp Various sets of power generation methods using multiple opposing long blade moving wheel water turbines and opposing straight all blade moving wheel elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple set length lenses (2d) with attached fixtures (80B). Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles Plus + Vaporization Explosive Force + Gravity Acceleration in Vacuum Accelerate vertically downward and select from existing materials Various energy conservation cycle combined engines of power generation method which has opposing series all moving blade water turbine and opposing series all moving blade elastic wheel gas turbine installed in multiple stages aiming at increasing power generation by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles Plus + Evaporative Explosive Force + Gravity Acceleration in Vacuum Add Vertically Downward Acceleration, from Existing Lens Cross Section Various energy of the power generation method that multistage opposed blade all-wheels wheel water turbines and counter-series all bladed wheel elastic wheels gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount to sunlight by water (52b) pipe with selected cross-section length lens (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various automobiles to make + + evaporative explosion power + gravity acceleration added in vacuum vertically accelerated downward and approached vacuum Various kinds of power generation methods in which opposing series all moving blade springing car water turbine and opposing series all moving wing elastic car gas turbine are provided in multiple stages aiming at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle in the part Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Opposite in-line all moving blade springing water to increase power generation by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by increasing the vaporization explosion power + gravity acceleration vertically downward and increasing the divided clamp (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Opposite series all moving blades aiming to increase power generation by installing set of multi-length lenses (2d) by clamping and adding clamps (80B) and tightening by accelerating vertically downward by adding vaporization and explosion power + gravitational acceleration inside. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) made from existing materials. Opposite Series All Blades Bumping Wheel Water Turbine · Opposed Series All Blade Bumping Wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Evaporative force + acceleration of gravity added in the vertical direction to accelerate vertically downward, to increase the amount of concentrated power generation from the existing lens cross-section to the sunlight (water tube 52b) tube with selected cross-section length lens (2d) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum In the case of opposing series all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at the portion close to vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Opposition force + Gravity acceleration is accelerated vertically downward, and the width of the long lens (2d) tightened by the split clamp (80B) tightening to increase power generation Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Opposing force + Gravitational acceleration Additional vertical downward acceleration Vertically split, and provide a set of multiple long lenses (2d) with tightening tool (80B) tightening to aim at increasing power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials to aim at increasing power generation of opposed series all moving blades Water turbine ・ Opposed series all moving blades Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Opposite in-line all moving blade springing wheel water turbine aiming to increase the amount of concentrated power generation to the water (52b) pipe by accelerating the explosion power + gravitational acceleration vertically downward and increasing the sunlight to water (52b) pipe from the existing lens cross section with selected cross section lens (2d) Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add an explosion power + gravitational acceleration vertically downward to maintain the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum to aim at an increase in the amount of power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Opposite in-line all moving blade springing water to increase power generation by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by increasing the vaporization explosion power + gravity acceleration vertically downward and increasing the divided clamp (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Opposite series all moving blades aiming to increase power generation by installing set of multi-length lenses (2d) by clamping and adding clamps (80B) and tightening by accelerating vertically downward by adding vaporization and explosion power + gravitational acceleration inside. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) made from existing materials. Opposite Series All Blades Bumping Wheel Water Turbine · Opposed Series All Blade Bumping Wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Evaporative force + acceleration of gravity added in the vertical direction to accelerate vertically downward, to increase the amount of concentrated power generation from the existing lens cross-section to the sunlight (water tube 52b) tube with selected cross-section length lens (2d) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater In the case of opposing series all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at the portion close to vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade springing wheel gas aim to increase power generation by increasing width of long lens (2d) tightening by additional vertical downward acceleration. Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line all moving blades aiming at increasing power generation by providing additional vertically downward accelerating and dividing and tightening tightening tool (80B) multiple set lenses (2d) as a set Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Power generation method with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines installed in multiple stages to accelerate the additional vertical downward and increase power generation capacity by selecting long lenses (2d) selected from existing materials The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Opposite in-line all rotor blade springing car Water turbine · facing in-line all rotor wing springing wheel aiming to increase concentrated power output to water (52b) pipe by accelerating sunlight downward to the existing vertical section and selecting section long lens (2d) from existing lens cross section Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Opposite in-line all moving blades Bumping car Water turbine · Opposing in-line all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating vertically downward further in a part close to vacuum Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward To increase the power generation by accelerating the width of the long lens (2d) by tightening the split clamp (80B) to increase the power generation capacity Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Opposite in-line all moving blade springing wheel water turbine · Opposing in-line all moving blade springing wheel gas turbine aiming at increasing power generation by providing a set of multiple length lenses (2d) by accelerating and dividing and tightening the tightening tool (80B) Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Opposite in-line all moving blade spring wheel water turbine · Opposing in-line all moving blade spring wheel gas turbine is installed in multiple stages Various energy conservation of power generation method provided with multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Accelerate the surface of the existing lens cross section to select sunlight from the existing lens cross section to the water (52b) pipe to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Opposite in-line all-rotor-bottled-wheel water turbine · Opposite-series-all-rotor alligator bog-wheeler gas turbine that aims to increase power generation by maintaining the adiabatic long lens (2d) and solar light at right angle by accelerating near the vacuum. Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) manufactured from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B), aiming to increase the amount of power generation. Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically in a vacuum, accelerated vertically downward, and divided into two sets of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increasing power output Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration Added in Vertical Vacuum Vertically Accelerated Downward to Select from Existing Materials Long Lens (2d) to Achieve Power Generation Increase Opposite Series All Blades Bumping Wheel Water Turbine · Opposite All Series Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + addition of vaporization and explosion power + gravity acceleration in a vacuum, vertically accelerated downward, from the existing lens cross section to the selected section length lens (2d) to aim sunlight to the water (52b) tube Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to maintain an adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increasing power generation. Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) manufactured from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Opposition force + Gravity acceleration is accelerated vertically downward, and the width of the long lens (2d) tightened by the split clamp (80B) tightening to increase power generation Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Opposing force + Gravitational acceleration Additional vertical downward acceleration Vertically split, and provide a set of multiple long lenses (2d) with tightening tool (80B) tightening to aim at increasing power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials to aim at increasing power generation of opposed series all moving blades Water turbine ・ Opposed series all moving blades Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Opposite in-line all moving blade springing wheel water turbine aiming to increase the amount of concentrated power generation to the water (52b) pipe by accelerating the explosion power + gravitational acceleration vertically downward and increasing the sunlight to water (52b) pipe from the existing lens cross section with selected cross section lens (2d) Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Add an explosion power + gravitational acceleration vertically downward to maintain the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum to aim at an increase in the amount of power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Accelerating acceleration Accelerating vertically downward and increasing the width of the split lens (80B) tightening long lens (2d) to aim at increasing the amount of power generation Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Accelerating acceleration Accelerating vertically downward and dividing and providing multiple tightening lenses (2B) with tightening tool (80B) tightening to aim at increasing power generation Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line all Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Accelerating acceleration Accelerating vertically downward to increase power output by selecting existing lenses (2d) as long lenses To increase power generation by opposing series All moving blades water turbines · Opposed series all moving blades gas turbines are provided in multiple stages Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Accelerating acceleration Accelerating vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum, aiming to increase power generation by facing in-line all moving blades Bumping wheel water turbine · facing in-line all Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine installed in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat recovery with heat pump (1G) + Evaporative detonation force + addition of gravity acceleration in a vacuum Accelerate vertically downward from existing materials to increase power output with selected long lenses (2d) facing in-line total Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy preservation cycle combined engines of the power generation method which is provided with opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Add evaporative detonation force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) and aim to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) In compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Heat recovery + vaporization evaporative force + additional gravity acceleration in a vacuum vertically accelerated downwards to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Add compression heat recovery + vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Evaporative detonation force + add gravity acceleration in a vacuum Accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Opposite series all moving blades aiming to increase power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically increasing the vaporization explosion power + gravity acceleration downward in + vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward, divide and install multiple long lenses (2d) of tightening tool (80B) tightening to aim at increasing power generation Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + In vacuum, add evaporative explosion power + add gravity acceleration vertically downward to accelerate the power generation by increasing the amount of power generation by selecting a long lens (2d) from existing materials Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + In vacuum, add evaporative detonation power + acceleration of gravity vertically downward and aim for increasing the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by the selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increasing power generation Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2.) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerating the split fastener (80B) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration vertically in the internal air (28a) + vacuum and divide vertically to clamp the fastener (80B) Various energy storage cycle coalescing engines of the power generation method which is provided with multi-long lenses (2d) attached as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2.) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically, select long lens from existing material (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing buttoned wheel gas turbine in multiple stages aiming at the increase of the power generation amount by making long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with internal water (28a) with a compressed water heat exchanger (2Y) + Add the vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select a lens of selected cross section from the existing lens cross section (2 d A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount of sunlight to water (52b) pipes.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed water heat exchanger (2Y) + internal pressure (28a) + evaporative explosion power + add gravity acceleration in a vacuum + accelerate vertically downwards, adiabatic long lens near the vacuum (2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposed series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining sunlight at near right angles and aiming at increasing power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount by increasing the width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy preservation cycle combined engines of the power generation method which set up 2 d) as a set and aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation near the right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy preservation cycle combined engines of the power generation method which installed opposite series whole moving blade water turbine and opposite series moving whole blade elastic wheel gas turbine in multiple stages aiming at increasing the width of 2d) and increasing power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation cycle combined engines of power generation method which is provided with long lenses (2d) as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which is provided with multistage opposed all-in-line all-wheels wheel water turbine and anti-all-in-line all-in-round all-wheels wheeled gas turbine to increase concentrated power generation to light water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by maintaining solar light at near right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum and divide vertically to divide and clamp multiple clamp lenses (2d) with clamp (80B) Various energy preservation cycle combined engines of the power generation method which provided in a set and aimed at the increase in the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to make the adiabatic long lens (2d) and sun light nearly perpendicular at the part close to vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages to aim at the power generation amount increase maintained by.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in a vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing material aiming at increased power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration in a vacuum + accelerate vertically downwards, split clamp (80B) tightening long lens ( Various energy preservation cycle combined engines of the power generation method which installed opposite series whole moving blade water turbine and opposite series moving whole blade elastic wheel gas turbine in multiple stages aiming at increasing the width of 2d) and increasing power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to divide and clamp multiple clamps (80B) Various energy conservation cycle combined engines of power generation method which is provided with long lenses (2d) as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select the sun from the existing lens cross section by the selected cross section lens (2d) Various energy conservation cycle combined engines of power generation method which is provided with multistage opposed all-in-line all-wheels wheel water turbine and anti-all-in-line all-in-round all-wheels wheeled gas turbine to increase concentrated power generation to light water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and adiabatic long lens (2d) in the part close to vacuum And various energy preservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by maintaining solar light at near right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided in a set and aimed at the increase in the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens from the existing material longer and increase the power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages to aim at the power generation amount increase maintained by.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount by increasing the width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which set up 2 d) as a set and aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation near the right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and set the multiple clamp lenses (2d) of the clamp (80B) tightened as a set Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing material aiming at increasing power output Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to concentrate the sunlight into the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Increase the power generation amount by increasing the width of the long lens (2d) by tightening the split clamp (80B) by heating (52b) in + heating and adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Increase the power generation by heating (52b) in a heating + vacuum and adding the vaporization explosion power + gravitational acceleration vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamp. The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat (52b) Heating + addition of vaporizing explosive force + gravitational acceleration in a vacuum Vertically accelerating downward vertically to increase power output by selecting a long lens (2d) selected from existing materials・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Heating (52b) in a heating + vacuum, adding vaporization and explosion power + gravitational acceleration vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with sunlight selected with a cross section lens (2 d) A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat (52b) in the heating + vacuum, add the vaporization explosion power + gravity acceleration vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heating water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated down, split lens (80B) clamp long lens Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming to increase the width of (2d) to increase the power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and tighten clamp (80B) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages with multiple long lenses (2d) set as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) B) Heating water (52b) with compressed air heat (28b) + Fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make selected long lenses (2d) from existing materials long The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn with combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross section lens from existing lens cross section (2d) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are installed in multiple stages aiming to increase concentrated power generation amount of sunlight to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (2d) near the vacuum A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade flywheels gas turbines are provided in multiple stages to aim at increasing power generation by maintaining the sunlight at near right angles and aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages aiming at increase of the width of the power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp (2d) Set as a set to increase power generation A variety of energy storage cycle coalescence engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving systems gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed opposing multi-stage all-impeller impeller water turbine and anti-parallel multi-stage rotary impeller gas turbine in multiple stages to increase concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages to maintain the light near the right angle to increase the power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) Heating (52b) + fuel injection and combustion + vaporizing explosion power + gravitational acceleration is added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in a vacuum to accelerate vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine installed in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection and burning + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downward from the existing material to make the selected manufacturing long lens (2d) longer to aim at increasing power output Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) Heating (52b) + fuel injection and burning + vaporization evaporative force + gravitational acceleration is added in vacuum and accelerated vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2 d) into a water (52 b) tube Various energy preservation cycle combined engines of the power generation method which is provided with opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection combustion + vaporization evaporative force + gravity acceleration added in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative explosion + gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative explosion + gravity acceleration is added vertically in a vacuum, and divided vertically to provide a set of multiple long lenses (2d) for tightening (80B) tightening and generating power Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heat + fuel injection burn + add evaporative explosion power + gravity acceleration in vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) selected from existing materials Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative force + gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with the selected section long lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative force + gravity acceleration added in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the part near the vacuum to generate electricity Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Detonation Power Maximize + Add Vaporization Explosion + Gravity Acceleration in Vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) selected from existing materials・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + Evaporative Explosion Force + Add Gravity Acceleration in a Vacuum Accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to aim at increasing power generation Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + add vaporization and explosion force + gravity acceleration in a vacuum, accelerate vertically downward, divide, and provide multiple length lenses (2d) of tightening (80B) tightening as opposed to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase in gas + Evaporative explosion force + addition of gravity in vacuum Vertical acceleration in the downward direction to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase in + + Evaporative Explosion Force + Add Gravity Acceleration in a Vacuum Accelerate vertically downward, from the existing lens cross section to select water from the existing lens cross section lens (2d) aiming to increase the amount of concentrated power generation to water (52b) tube Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + add evaporative explosive force + gravity acceleration in vacuum Vertically accelerate in the downward direction to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum and aim to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Detonation Power Maximize + Add Vaporization Explosion + Gravity Acceleration in Vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) selected from existing materials・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative explosion force + Gravity acceleration is accelerated vertically downward to increase the width of the split lens (80B) and the long lens (2d) clamp to increase power generation Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative explosion force + Gravity acceleration is accelerated vertically downward and divided to provide multiple set length lenses (2d) of tightening tool (80B) tightening to aim at increasing power generation Counter-parallel all moving blade springing wheel water Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative explosion power + Gravity acceleration added Vertically accelerated downwards, existing materials selected material long lens (2d) to increase power output aiming at opposing series full buckets wheel water turbine · facing series full blade wing ball flywheel gas turbine Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative explosion + gravity acceleration added vertically downward to accelerate sunlight from the existing lens section to the water (52b) pipe with the selected section length lens (2d)・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative explosion force + additional gravity acceleration Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation by opposing series all moving blade springing water Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Opposite in-line all-rotor blade springing wheel water turbine, opposite-in-line total motion for increasing power generation by increasing the width of the long lens (2d) by clamping the gravity acceleration by adding vertically downward downward and increasing the width of the long lens (2d) Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated downward vertically and divided to provide a set of multiple clamp lenses (2d) for tightening (80B) tightening to increase power generation. Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Add Gravity Acceleration Upward vertically to accelerate vertically downwards, select from existing materials Long lens (2d) to increase power output Increase in opposing series All moving blades Water turbines · Opposed in series All moving blades Gas turbines in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section lens (2d). Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Add Gravity Acceleration Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increased power generation by facing series All moving blades Bumping wheel water turbine · Opposing series Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerate in the downward direction and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade springing wheel gas gas aiming at increase of power generation by providing a set of multiple long lenses (2d) of divided and tightened fasteners (80B) to accelerate downward. Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerating downward, select from existing materials and increase the power output by selecting long lenses (2d) selected from existing materials Various types of power generation methods in which opposing series full moving blade spring wheel water turbine · opposing series full moving blade spring wheel gas turbine are provided in multiple stages Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerating downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the sunlight through the water (52b) pipe with the selected cross-section length lens (2d) Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all moving blade springing car water turbine, facing in-line all moving wing springing car gas aim to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at right angle near the vacuum by accelerating downward. Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerate in the downward direction and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade springing wheel gas gas aiming at increase of power generation by providing a set of multiple long lenses (2d) of divided and tightened fasteners (80B) to accelerate downward. Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerating downward, select from existing materials and increase the power output by selecting long lenses (2d) selected from existing materials Various types of power generation methods in which opposing series full moving blade spring wheel water turbine · opposing series full moving blade spring wheel gas turbine are provided in multiple stages Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerating downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the sunlight through the water (52b) pipe with the selected cross-section length lens (2d) Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all moving blade springing car water turbine, facing in-line all moving wing springing car gas aim to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at right angle near the vacuum by accelerating downward. Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Opposition force + Gravity acceleration is accelerated vertically downward, and the width of the long lens (2d) tightened by the split clamp (80B) tightening to increase power generation Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Opposing force + Gravitational acceleration Additional vertical downward acceleration Vertically split, and provide a set of multiple long lenses (2d) with tightening tool (80B) tightening to aim at increasing power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials to aim at increasing power generation of opposed series all moving blades Water turbine ・ Opposed series all moving blades Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Opposite in-line all moving blade springing wheel water turbine aiming to increase the amount of concentrated power generation to the water (52b) pipe by accelerating the explosion power + gravitational acceleration vertically downward and increasing the sunlight to water (52b) pipe from the existing lens cross section with selected cross section lens (2d) Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Add an explosion power + gravitational acceleration vertically downward to maintain the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum to aim at an increase in the amount of power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B), aiming to increase the amount of power generation. Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy preservation cycle combined engines of the power generation method which installed opposite series whole moving blade water turbine and opposite series moving whole blade elastic wheel gas turbine in multiple stages aiming at increasing the width of 2d) and increasing power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount by increasing the width.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages aiming at increase of the width of the power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically in a vacuum, accelerated vertically downward, and divided into two sets of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increasing power output Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine installed in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation cycle combined engines of power generation method which is provided with long lenses (2d) as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which set up 2 d) as a set and aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp (2d) Set as a set to increase power generation A variety of energy storage cycle coalescence engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving systems gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration Added in Vertical Vacuum Vertically Accelerated Downward to Select from Existing Materials Long Lens (2d) to Achieve Power Generation Increase Opposite Series All Blades Bumping Wheel Water Turbine · Opposite All Series Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) Heat recovery with heat pump (1G) + Evaporative detonation force + addition of gravity acceleration in a vacuum Accelerate vertically downward from existing materials to increase power output with selected long lenses (2d) facing in-line total Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + addition of vaporization and explosion power + gravity acceleration in a vacuum, vertically accelerated downward, from the existing lens cross section to the selected section length lens (2d) to aim sunlight to the water (52b) tube Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy preservation cycle combined engines of the power generation method which is provided with opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which is provided with multistage opposed all-in-line all-wheels wheel water turbine and anti-all-in-line all-in-round all-wheels wheeled gas turbine to increase concentrated power generation to light water (52b) pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed opposing multi-stage all-impeller impeller water turbine and anti-parallel multi-stage rotary impeller gas turbine in multiple stages to increase concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to maintain an adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increasing power generation. Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by maintaining solar light at near right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation near the right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages to maintain the light near the right angle to increase the power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration in Vacuum + Acceleration Vertically Downwards to Achieve the Same Maximum Amount of Water Generation Power generation with multistage opposed all-in-line impellers wheeled water turbines and opposed in-line all-in-line all-wheels impellers gas turbines in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) Heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward to achieve the same water volume maximum power generation opposed series all moving blades Bumping wheel water turbine · opposed series all moving blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to achieve the same water volume maximum power generation Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heats the water (52b) with compressed air heat (28b) + adds vaporization and explosion power + gravity acceleration vertically in vacuum and accelerates vertically downward to achieve the same amount of water maximum generating amount Opposed series All moving blades Bumping wheel Water turbine · Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat the water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downwards to achieve the same water volume maximum power generation opposed series all moving blade springing wheel water turbine・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation. Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is accelerated vertically downward and divided to provide multiple sets of tightening lenses (2B) by tightening clamps (80B) to increase power output. Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration Add vertical acceleration vertically downward, select from existing materials Long lens size (2d) to increase power output aiming at opposed series all moving blade water spring car Water turbine · opposite series all moving blade ball rushed car gas turbine Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the sunlight (water tube 52b) pipe with the selected cross section lens (2d) Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation by opposing series all moving blades Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), aiming to increase power generation. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward, divide and install multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Evaporative explosion force + Gravity acceleration added in vacuum + Accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and aim for increasing the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by the selected cross section lens (2 d) Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum and aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Opposite in-line all-rotor blade springing wheel aiming to increase power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration downward in the vacuum and adding vertically downward Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Add the vaporization explosion power + gravity acceleration vertically downward in a vacuum, divide it, and install multiple long lenses (2d) of tightening tool (80B) tightening in order to increase power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line all moving blades aiming to increase power output by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum and making selected lenses (2d) longer from existing materials Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Opposite series all moving blades aiming to increase the concentrated power generation amount from the existing lens section to the water (52b) pipe by accelerating the vaporization explosion power + gravity acceleration vertically downward in vacuum and using the existing lens section with the selected section length lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Evaporative explosion power + acceleration of gravity is additionally added vertically downward in a vacuum to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increasing power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), aiming to increase power generation. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward, divide and install multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Evaporative explosion force + Gravity acceleration added in vacuum + Accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and aim for increasing the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by the selected cross section lens (2 d) Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum and aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation. Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward and divided to provide multiple sets of tightening lenses (2B) by tightening clamps (80B) to increase power generation. Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Add Gravity Acceleration Accelerate vertically downward to increase power output by selecting existing lens materials (2d) to increase power output. Opposing in-line all-wing-flapping car water turbine · Opposing-series all-wing all-impact ball rolling car gas turbine in multiple stages Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section lens (2d). Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increased power generation by facing series All moving blades Bumping wheel water turbine · facing Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade springing wheel gas aim to increase power generation by increasing width of long lens (2d) tightening by additional vertical downward acceleration. Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line all moving blades aiming at increasing power generation by providing additional vertically downward accelerating and dividing and tightening tightening tool (80B) multiple set lenses (2d) as a set Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Power generation method with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines installed in multiple stages to accelerate the additional vertical downward and increase power generation capacity by selecting long lenses (2d) selected from existing materials The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite in-line all rotor blade springing car Water turbine · facing in-line all rotor wing springing wheel aiming to increase concentrated power output to water (52b) pipe by accelerating sunlight downward to the existing vertical section and selecting section long lens (2d) from existing lens cross section Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite in-line all moving blades Bumping car Water turbine · Opposing in-line all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating vertically downward further in a part close to vacuum Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add the vaporization exploding force + gravity acceleration in a vacuum, accelerate vertically downward and increase the width of the long lens (2d) tightening the split clamp (80B) in order to increase the amount of power generation. Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide, and install multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power generation by facing series Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add the vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, and increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add an evaporative explosion power + gravity acceleration in a vacuum, accelerate vertically downward, maintain adiabatic long lens (2d) and sunlight at right angle in the part close to vacuum and aim at increasing power generation Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Opposite in-line all moving blade springing water to increase power generation by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by increasing the vaporization explosion power + gravity acceleration vertically downward and increasing the divided clamp (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Opposite series all moving blades aiming to increase power generation by installing set of multi-length lenses (2d) by clamping and adding clamps (80B) and tightening by accelerating vertically downward by adding vaporization and explosion power + gravitational acceleration inside. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) made from existing materials. Opposite Series All Blades Bumping Wheel Water Turbine · Opposed Series All Blade Bumping Wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Evaporative force + acceleration of gravity added in the vertical direction to accelerate vertically downward, to increase the amount of concentrated power generation from the existing lens cross-section to the sunlight (water tube 52b) tube with selected cross-section length lens (2d) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum In the case of opposing series all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at the portion close to vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add the vaporization exploding force + gravity acceleration in a vacuum, accelerate vertically downward and increase the width of the long lens (2d) tightening the split clamp (80B) in order to increase the amount of power generation. Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide, and install multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power generation by facing series Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add the vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, and increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add an evaporative explosion power + gravity acceleration in a vacuum, accelerate vertically downward, maintain adiabatic long lens (2d) and sunlight at right angle in the part close to vacuum and aim at increasing power generation Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Opposite in-line all-rotor blade springing wheel water turbine, opposite-in-line total motion for increasing power generation by increasing the width of the long lens (2d) by clamping the gravity acceleration by adding vertically downward downward and increasing the width of the long lens (2d) Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated downward vertically and divided to provide a set of multiple clamp lenses (2d) for tightening (80B) tightening to increase power generation. Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Add Gravity Acceleration Upward vertically to accelerate vertically downwards, select from existing materials Long lens (2d) to increase power output Increase in opposing series All moving blades Water turbines · Opposed in series All moving blades Gas turbines in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section lens (2d). Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Add Gravity Acceleration Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increased power generation by facing series All moving blades Bumping wheel water turbine · Opposing series Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Opposite in-line all-rotor wing-spring water turbine · Opposed-series all-wing wing elastic-wheel gas turbine Increases power generation by increasing the width of the long lens (2d) by tightening the split clamp (80B) vertically downward. Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade bouncy wheel aiming to increase power generation by providing a set of multiple long lenses (2d) by accelerating in the vertical downward direction and dividing and tightening the clamp (80B) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Opposite in-line all moving blade spring wheel water turbine · Opposed in-line all moving blade spring wheel gas turbine is installed in multiple stages to increase power generation by accelerating vertically downward and increasing production capacity by selecting long lenses (2d) selected from existing materials Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade springing wheel gas aim to increase concentrated power output to water (52b) tube by accelerating sunlight downward with existing lens cross-section and selected section length lens (2d) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Opposite in-line all moving blade springing car water turbine · facing in-line all moving blade bouncy wheel aiming to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at right angle near the vacuum by accelerating vertically downward. Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Increase the amount of power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating the internal air in compression heat recovery + vacuum and vaporization explosion power + gravitational acceleration vertically downward. The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Generate internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide, divide and set multiple long lenses (2d) of clamp (80B) clamp to generate electricity Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Compression heat recovery of internal air + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from the existing material to increase power output by selecting a long lens (2d) made from an existing material Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air in compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) manufactured from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Increase the amount of power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating the internal air in compression heat recovery + vacuum and vaporization explosion power + gravitational acceleration vertically downward. The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Generate internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide, divide and set multiple long lenses (2d) of clamp (80B) clamp to generate electricity Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Compression heat recovery of internal air + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from the existing material to increase power output by selecting a long lens (2d) made from an existing material Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air in compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Opposite in-line all moving blade springing water to increase power generation by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by increasing the vaporization explosion power + gravity acceleration vertically downward and increasing the divided clamp (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Opposite series all moving blades aiming to increase power generation by installing set of multi-length lenses (2d) by clamping and adding clamps (80B) and tightening by accelerating vertically downward by adding vaporization and explosion power + gravitational acceleration inside. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) made from existing materials. Opposite Series All Blades Bumping Wheel Water Turbine · Opposed Series All Blade Bumping Wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Evaporative force + acceleration of gravity added in the vertical direction to accelerate vertically downward, to increase the amount of concentrated power generation from the existing lens cross-section to the sunlight (water tube 52b) tube with selected cross-section length lens (2d) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum In the case of opposing series all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at the portion close to vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation. Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is accelerated vertically downward and divided to provide multiple sets of tightening lenses (2B) by tightening clamps (80B) to increase power output. Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration Add vertical acceleration vertically downward, select from existing materials Long lens size (2d) to increase power output aiming at opposed series all moving blade water spring car Water turbine · opposite series all moving blade ball rushed car gas turbine Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the sunlight (water tube 52b) pipe with the selected cross section lens (2d) Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation by opposing series all moving blades Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation force + gravitational acceleration under compression heat recovery + vacuum and accelerate vertically downward, and the split fastener (80B) clamp long lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages aiming at increase of the width of the power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Multiple heats of internal air (28a) by heat pump (1G), compression heat recovery + vaporization and explosion power + additional gravity acceleration is added vertically downward to divide and clamp (80B) clamp (2d) Set as a set to increase power generation A variety of energy storage cycle coalescence engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving systems gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + vacuum in a vacuum, add vaporization power + gravity acceleration vertically downward to make the selected lens from existing materials long enough to generate power Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + in a vacuum add vaporization power + gravitational acceleration accelerate vertically downward and select sunlight from cross section of existing lens with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed opposing multi-stage all-impeller impeller water turbine and anti-parallel multi-stage rotary impeller gas turbine in multiple stages to increase concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation power + gravitational acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and the sun at the part close to vacuum Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages to maintain the light near the right angle to increase the power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation force + gravitational acceleration under compression heat recovery + vacuum and accelerate vertically downward, and the split fastener (80B) clamp long lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages aiming at increase of the width of the power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Multiple heats of internal air (28a) by heat pump (1G), compression heat recovery + vaporization and explosion power + additional gravity acceleration is added vertically downward to divide and clamp (80B) clamp (2d) Set as a set to increase power generation A variety of energy storage cycle coalescence engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving systems gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + vacuum in a vacuum, add vaporization power + gravity acceleration vertically downward to make the selected lens from existing materials long enough to generate power Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + in a vacuum add vaporization power + gravitational acceleration accelerate vertically downward and select sunlight from cross section of existing lens with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed opposing multi-stage all-impeller impeller water turbine and anti-parallel multi-stage rotary impeller gas turbine in multiple stages to increase concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation power + gravitational acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and the sun at the part close to vacuum Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages to maintain the light near the right angle to increase the power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) Increase the power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) by accelerating the compression heat recovery + evaporation vaporization power + gravitational acceleration vertically downward in (1 G) + vacuum The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward to divide, and provide multiple long lenses (2d) of clamp (80B) clamp as a set to generate electricity Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) Countermeasure in-line all-wheels ballistic wheel aiming to increase power output by selectively producing a long lens (2d) selected from existing materials by adding compression heat recovery + evaporation evaporative explosion power + gravitational acceleration in vacuum in + 1 vacuum Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section long lens (2 d) Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in vacuum, vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + Add evaporative explosion power + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), and aim at increasing power generation Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + addition of vaporization and explosion power + gravity acceleration in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of tightening (80B) tightening to aim at increasing power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + addition of vaporization and explosion power + gravity acceleration in vacuum are accelerated vertically downward, and the opposing lens aims to increase the amount of concentrated power generation to the water (52b) tube from the existing lens section with the selected section length lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + Add evaporative explosive power + Gravity acceleration in a vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) + internal pressure of the air (28b) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum to accelerate the split fastener (80B) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are provided in multiple stages to increase the width of tightening long lens (2d) to increase power generation .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the fastener ( 80B) Various energy conservation cycles of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages by aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy preservation cycle combination of the electric power generation method which installed the opposing in-line all moving blade springing car water turbine and the opposing in-line all moving wing elastic car gas turbine in multiple stages aiming at the sunlight (water tube 52b) tube with sunlight by lens (2d) organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal heat (28a) in the vacuum + add vaporizing explosion power + gravity acceleration in the vacuum vertically accelerating downward and heat insulation in the part close to the vacuum Various energy conservation cycles of the power generation method that multistage opposing turbine blade water turbines and opposed tandem blade turbines gas turbines are provided in order to increase power generation by maintaining long lens (2d) and sunlight at right angle near to each other Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2.) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerating the split fastener (80B) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration vertically in the internal air (28a) + vacuum and divide vertically to clamp the fastener (80B) Various energy storage cycle coalescing engines of the power generation method which is provided with multi-long lenses (2d) attached as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2.) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically, select long lens from existing material (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing buttoned wheel gas turbine in multiple stages aiming at the increase of the power generation amount by making long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with internal water (28a) with a compressed water heat exchanger (2Y) + Add the vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select a lens of selected cross section from the existing lens cross section (2 d A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount of sunlight to water (52b) pipes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed water heat exchanger (2Y) + internal pressure (28a) + evaporative explosion power + add gravity acceleration in a vacuum + accelerate vertically downwards, adiabatic long lens near the vacuum (2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposed series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining sunlight at near right angles and aiming at increasing power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) + internal pressure of the air (28b) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum to accelerate the split fastener (80B) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are provided in multiple stages to increase the width of tightening long lens (2d) to increase power generation .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the fastener ( 80B) Various energy conservation cycles of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages by aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy preservation cycle combination of the electric power generation method which installed the opposing in-line all moving blade springing car water turbine and the opposing in-line all moving wing elastic car gas turbine in multiple stages aiming at the sunlight (water tube 52b) tube with sunlight by lens (2d) organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal heat (28a) in the vacuum + add vaporizing explosion power + gravity acceleration in the vacuum vertically accelerating downward and heat insulation in the part close to the vacuum Various energy conservation cycles of the power generation method that multistage opposing turbine blade water turbines and opposed tandem blade turbines gas turbines are provided in order to increase power generation by maintaining long lens (2d) and sunlight at right angle near to each other Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount by increasing the width.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy preservation cycle combined engines of the power generation method which set up 2 d) as a set and aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation near the right angle.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple length lens (2d) of the clamp (80B) clamp The various energy preservation cycle combined engines of the power generation method which provided opposite series full moving blade water turbine and opposite series full moving blade elastic wheel gas turbine in multiple stages to aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to increase power output by increasing the power of selected lenses (2d) from existing materials Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward to select sunlight from cross section of existing lens with water (52b) pipe with water (52b) tube The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and in the part close to vacuum, adiabatic long lens (2d) and sunlight at right angle Various energy preservation cycle combined engines of the power generation method which set up opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages to maintain and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive force + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) Various energy storage cycle coalescing engines of the power generation method which is provided with multi-long lenses (2d) attached as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum, accelerate vertically downward, select lens made from existing material, long lens (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing buttoned wheel gas turbine in multiple stages aiming at the increase of the power generation amount by making long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from cross section of existing lens (2d A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount of sunlight to water (52b) pipes.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum + accelerate vertically downward and adiabatic long lens near the vacuum (2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposed series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining sunlight at near right angles and aiming at increasing power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration in a vacuum + accelerate vertically downwards, split clamp (80B) tightening long lens ( Various energy preservation cycle combined engines of the power generation method which installed opposite series whole moving blade water turbine and opposite series moving whole blade elastic wheel gas turbine in multiple stages aiming at increasing the width of 2d) and increasing power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to divide and clamp multiple clamps (80B) Various energy conservation cycle combined engines of power generation method which is provided with long lenses (2d) as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select the sun from the existing lens cross section by the selected cross section lens (2d) Various energy conservation cycle combined engines of power generation method which is provided with multistage opposed all-in-line all-wheels wheel water turbine and anti-all-in-line all-in-round all-wheels wheeled gas turbine to increase concentrated power generation to light water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and adiabatic long lens (2d) in the part close to vacuum And various energy preservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by maintaining solar light at near right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive force + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) Various energy storage cycle coalescing engines of the power generation method which is provided with multi-long lenses (2d) attached as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum, accelerate vertically downward, select lens made from existing material, long lens (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing buttoned wheel gas turbine in multiple stages aiming at the increase of the power generation amount by making long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from cross section of existing lens (2d A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount of sunlight to water (52b) pipes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum + accelerate vertically downward and adiabatic long lens near the vacuum (2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposed series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining sunlight at near right angles and aiming at increasing power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided in a set and aimed at the increase in the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens from the existing material longer and increase the power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages to aim at the power generation amount increase maintained by.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in a vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing material aiming at increased power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Various energy conservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, divide and clamp (80B) Various energy storage cycle coalescing engines of the power generation method with multiple opposing long blade moving wheel water turbines and opposing series full moving blade elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple tightening lenses (2d) as a set .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials (2d) A variety of energy conservation cycle combined engines of power generation method which is provided with opposing series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines in multiple stages aiming to increase power generation capacity by lengthening the size of.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens from selected lens cross section Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring car water turbine and the opposed series all moving wing bounty gas turbine in multiple stages aiming at the sunlight (water) 52b pipe in 2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward vertically to lengthen the heat insulation in the part close to vacuum Various energy storage cycle coalescing engines of power generation method with opposing series all moving blades water turbine and opposing series all moving blades gas turbine arranged in multiple stages to aim at increasing power generation by maintaining lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heating water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated down, split lens (80B) clamp long lens Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming to increase the width of (2d) to increase the power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and tighten clamp (80B) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages with multiple long lenses (2d) set as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) B) Heating water (52b) with compressed air heat (28b) + Fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make selected long lenses (2d) from existing materials long The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn with combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross section lens from existing lens cross section (2d) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are installed in multiple stages aiming to increase concentrated power generation amount of sunlight to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (2d) near the vacuum A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade flywheels gas turbines are provided in multiple stages to aim at increasing power generation by maintaining the sunlight at near right angles and aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Various energy conservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, divide and clamp (80B) Various energy storage cycle coalescing engines of the power generation method with multiple opposing long blade moving wheel water turbines and opposing series full moving blade elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple tightening lenses (2d) as a set .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials (2d) A variety of energy conservation cycle combined engines of power generation method which is provided with opposing series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines in multiple stages aiming to increase power generation capacity by lengthening the size of.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens from selected lens cross section Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring car water turbine and the opposed series all moving wing bounty gas turbine in multiple stages aiming at the sunlight (water) 52b pipe in 2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward vertically to lengthen the heat insulation in the part close to vacuum Various energy storage cycle coalescing engines of power generation method with opposing series all moving blades water turbine and opposing series all moving blades gas turbine arranged in multiple stages to aim at increasing power generation by maintaining lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection and burning + vaporization and explosion power + additional gravity acceleration in a vacuum, accelerating vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection / burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward from the existing material to make the selected manufacturing long lens (2d) longer to aim at increasing power output Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to concentrate sunlight on the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downwards to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the vaporization explosion power + gravity acceleration in the vacuum to maximize the vaporization explosion power max + + vertically downward to divide and install the multiple clamp lenses (2 d) of the clamp (80 B) clamp in a set Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase of vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from the existing material to increase power output by selecting a long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward, from the existing lens cross section to the selected section length lens (2 d) concentrated sunlight to water (52 b) tube Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Maximize the vaporization explosion power + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Detonation Power Maximize + Add Vaporization Explosion + Gravity Acceleration in Vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) selected from existing materials・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downwards to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the vaporization explosion power + gravity acceleration in the vacuum to maximize the vaporization explosion power max + + vertically downward to divide and install the multiple clamp lenses (2 d) of the clamp (80 B) clamp in a set Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase of vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from the existing material to increase power output by selecting a long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward, from the existing lens cross section to the selected section length lens (2 d) concentrated sunlight to water (52 b) tube Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Maximize the vaporization explosion power + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Opposite in-line all-rotor blade springing wheel aiming to increase power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration downward in the vacuum and adding vertically downward Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Add the vaporization explosion power + gravity acceleration vertically downward in a vacuum, divide it, and install multiple long lenses (2d) of tightening tool (80B) tightening in order to increase power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line all moving blades aiming to increase power output by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum and making selected lenses (2d) longer from existing materials Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Opposite series all moving blades aiming to increase the concentrated power generation amount from the existing lens section to the water (52b) pipe by accelerating the vaporization explosion power + gravity acceleration vertically downward in vacuum and using the existing lens section with the selected section length lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Evaporative explosion power + acceleration of gravity is additionally added vertically downward in a vacuum to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increasing power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Opposition force + Gravity acceleration is accelerated vertically downward, and the width of the long lens (2d) tightened by the split clamp (80B) tightening to increase power generation Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Opposing force + Gravitational acceleration Additional vertical downward acceleration Vertically split, and provide a set of multiple long lenses (2d) with tightening tool (80B) tightening to aim at increasing power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials to aim at increasing power generation of opposed series all moving blades Water turbine ・ Opposed series all moving blades Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Opposite in-line all moving blade springing wheel water turbine aiming to increase the amount of concentrated power generation to the water (52b) pipe by accelerating the explosion power + gravitational acceleration vertically downward and increasing the sunlight to water (52b) pipe from the existing lens cross section with selected cross section lens (2d) Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Add an explosion power + gravitational acceleration vertically downward to maintain the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum to aim at an increase in the amount of power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade springing wheel to increase power generation by increasing the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Accelerating in the vertical direction downward, dividing and installing multiple long lenses (2d) of tightening tool (80B) tightening as a set to increase power generation Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line total movement Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Opposite in-line all-rotor-bottled wheel water turbine · Opposed-series all-wafer-vane-wheel gas turbine in multiple stages to increase power generation by accelerating vertically downward and increasing production capacity by selecting long lenses (2d) from existing materials How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Opposite in-line all moving blades Bumping wheel Water turbine · Opposing in-line all moving blades aiming to increase concentrated power output to water (52b) pipe by accelerating sunlight downward with existing lens cross section to select section long lens (2d) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Accelerating downward vertically to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increasing power generation by opposing series all moving blades Bumping wheel water turbine ・ opposed series total motion Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade springing wheel to increase power generation by increasing the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Accelerating in the vertical direction downward, dividing and installing multiple long lenses (2d) of tightening tool (80B) tightening as a set to increase power generation Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line total movement Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Opposite in-line all-rotor-bottled wheel water turbine · Opposed-series all-wafer-vane-wheel gas turbine in multiple stages to increase power generation by accelerating vertically downward and increasing production capacity by selecting long lenses (2d) from existing materials How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Opposite in-line all moving blades Bumping wheel Water turbine · Opposing in-line all moving blades aiming to increase concentrated power output to water (52b) pipe by accelerating sunlight downward with existing lens cross section to select section long lens (2d) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Accelerating downward vertically to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increasing power generation by opposing series all moving blades Bumping wheel water turbine ・ opposed series total motion Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Opposite in-line all moving blade springing water to increase power generation by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by increasing the vaporization explosion power + gravity acceleration vertically downward and increasing the divided clamp (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Opposite series all moving blades aiming to increase power generation by installing set of multi-length lenses (2d) by clamping and adding clamps (80B) and tightening by accelerating vertically downward by adding vaporization and explosion power + gravitational acceleration inside. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) made from existing materials. Opposite Series All Blades Bumping Wheel Water Turbine · Opposed Series All Blade Bumping Wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Evaporative force + acceleration of gravity added in the vertical direction to accelerate vertically downward, to increase the amount of concentrated power generation from the existing lens cross-section to the sunlight (water tube 52b) tube with selected cross-section length lens (2d) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum In the case of opposing series all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at the portion close to vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy preservation cycle combined engines of the power generation method which installed opposite series whole moving blade water turbine and opposite series moving whole blade elastic wheel gas turbine in multiple stages aiming at increasing the width of 2d) and increasing power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount by increasing the width.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages aiming at increase of the width of the power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation cycle combined engines of power generation method which is provided with long lenses (2d) as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which set up 2 d) as a set and aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp (2d) Set as a set to increase power generation A variety of energy storage cycle coalescence engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving systems gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) manufactured from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which is provided with multistage opposed all-in-line all-wheels wheel water turbine and anti-all-in-line all-in-round all-wheels wheeled gas turbine to increase concentrated power generation to light water (52b) pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed opposing multi-stage all-impeller impeller water turbine and anti-parallel multi-stage rotary impeller gas turbine in multiple stages to increase concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by maintaining solar light at near right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation near the right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages to maintain the light near the right angle to increase the power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum Vertically accelerate downwards vertically to achieve the same water volume maximum power generation Opposing series all moving blade springing wheel water turbine · Opposing series all moving blade springing wheel gas turbine in multiple stages Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat pump (1G) (28a) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum in vertical direction to accelerate vertically downward to achieve the same water volume and maximum power generation Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to achieve the same water volume maximum power generation Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heats the water (52b) with compressed air heat (28b) + adds vaporization and explosion power + gravity acceleration vertically in vacuum and accelerates vertically downward to achieve the same amount of water maximum generating amount Opposed series All moving blades Bumping wheel Water turbine · Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat the water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downwards to achieve the same water volume maximum power generation opposed series all moving blade springing wheel water turbine・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative explosion force + Gravity acceleration is accelerated vertically downward to increase the width of the split lens (80B) and the long lens (2d) clamp to increase power generation Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative explosion force + Gravity acceleration is accelerated vertically downward and divided to provide multiple set length lenses (2d) of tightening tool (80B) tightening to aim at increasing power generation Counter-parallel all moving blade springing wheel water Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative explosion power + Gravity acceleration added Vertically accelerated downwards, existing materials selected material long lens (2d) to increase power output aiming at opposing series full buckets wheel water turbine · facing series full blade wing ball flywheel gas turbine Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative explosion + gravity acceleration added vertically downward to accelerate sunlight from the existing lens section to the water (52b) pipe with the selected section length lens (2d)・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative explosion force + additional gravity acceleration Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation by opposing series all moving blade springing water Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + Add evaporative explosion power + Gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B), aiming to increase power generation. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward, divide and install multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Evaporative explosion force + Gravity acceleration added in vacuum + Accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and aim for increasing the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by the selected cross section lens (2 d) Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum and aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + Add evaporative explosion power + Gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative explosion force + Gravity acceleration is accelerated vertically downward to increase the width of the split lens (80B) and the long lens (2d) clamp to increase power generation Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative explosion force + Gravity acceleration is accelerated vertically downward and divided to provide multiple set length lenses (2d) of tightening tool (80B) tightening to aim at increasing power generation Counter-parallel all moving blade springing wheel water Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative explosion power + Gravity acceleration added Vertically accelerated downwards, existing materials selected material long lens (2d) to increase power output aiming at opposing series full buckets wheel water turbine · facing series full blade wing ball flywheel gas turbine Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative explosion + gravity acceleration added vertically downward to accelerate sunlight from the existing lens section to the water (52b) pipe with the selected section length lens (2d)・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative explosion force + additional gravity acceleration Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation by opposing series all moving blade springing water Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Opposite in-line all-rotor blade springing wheel water turbine, opposite-in-line total motion for increasing power generation by increasing the width of the long lens (2d) by clamping the gravity acceleration by adding vertically downward downward and increasing the width of the long lens (2d) Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated downward vertically and divided to provide a set of multiple clamp lenses (2d) for tightening (80B) tightening to increase power generation. Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Add Gravity Acceleration Upward vertically to accelerate vertically downwards, select from existing materials Long lens (2d) to increase power output Increase in opposing series All moving blades Water turbines · Opposed in series All moving blades Gas turbines in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section lens (2d). Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Add Gravity Acceleration Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increased power generation by facing series All moving blades Bumping wheel water turbine · Opposing series Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + Add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + Add evaporative explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Opposition force + Gravity acceleration is accelerated vertically downward, and the width of the long lens (2d) tightened by the split clamp (80B) tightening to increase power generation Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Opposing force + Gravitational acceleration Additional vertical downward acceleration Vertically split, and provide a set of multiple long lenses (2d) with tightening tool (80B) tightening to aim at increasing power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials to aim at increasing power generation of opposed series all moving blades Water turbine ・ Opposed series all moving blades Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Opposite in-line all moving blade springing wheel water turbine aiming to increase the amount of concentrated power generation to the water (52b) pipe by accelerating the explosion power + gravitational acceleration vertically downward and increasing the sunlight to water (52b) pipe from the existing lens cross section with selected cross section lens (2d) Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add an explosion power + gravitational acceleration vertically downward to maintain the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum to aim at an increase in the amount of power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Opposite in-line all moving blade springing water to increase power generation by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by increasing the vaporization explosion power + gravity acceleration vertically downward and increasing the divided clamp (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Opposite series all moving blades aiming to increase power generation by installing set of multi-length lenses (2d) by clamping and adding clamps (80B) and tightening by accelerating vertically downward by adding vaporization and explosion power + gravitational acceleration inside. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) made from existing materials. Opposite Series All Blades Bumping Wheel Water Turbine · Opposed Series All Blade Bumping Wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Evaporative force + acceleration of gravity added in the vertical direction to accelerate vertically downward, to increase the amount of concentrated power generation from the existing lens cross-section to the sunlight (water tube 52b) tube with selected cross-section length lens (2d) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater In the case of opposing series all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at the portion close to vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Opposition force + Gravity acceleration is accelerated vertically downward, and the width of the long lens (2d) tightened by the split clamp (80B) tightening to increase power generation Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Opposing force + Gravitational acceleration Additional vertical downward acceleration Vertically split, and provide a set of multiple long lenses (2d) with tightening tool (80B) tightening to aim at increasing power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials to aim at increasing power generation of opposed series all moving blades Water turbine ・ Opposed series all moving blades Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Opposite in-line all moving blade springing wheel water turbine aiming to increase the amount of concentrated power generation to the water (52b) pipe by accelerating the explosion power + gravitational acceleration vertically downward and increasing the sunlight to water (52b) pipe from the existing lens cross section with selected cross section lens (2d) Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Add an explosion power + gravitational acceleration vertically downward to maintain the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum to aim at an increase in the amount of power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Accelerating acceleration Accelerating vertically downward and increasing the width of the split lens (80B) tightening long lens (2d) to aim at increasing the amount of power generation Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Accelerating acceleration Accelerating vertically downward and dividing and providing multiple tightening lenses (2B) with tightening tool (80B) tightening to aim at increasing power generation Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line all Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Accelerating acceleration Accelerating vertically downward to increase power output by selecting existing lenses (2d) as long lenses To increase power generation by opposing series All moving blades water turbines · Opposed series all moving blades gas turbines are provided in multiple stages Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Accelerating acceleration Accelerating vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum, aiming to increase power generation by facing in-line all moving blades Bumping wheel water turbine · facing in-line all Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + evaporation in the vacuum + acceleration of gravity acceleration is added vertically downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + acceleration of gravity is added vertically downward to split, split and clamp (80B) clamp multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine installed in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Internal heat air compression heat recovery + vaporization evaporative explosion force + gravitational acceleration added vertically downward accelerated from existing materials selected production long lens (2d) aiming to increase power output Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravitational acceleration is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section long lens (2 d) Various energy preservation cycle combined engines of the power generation method which is provided with opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravity acceleration is added vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B), aiming to increase the amount of power generation. Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically in a vacuum, accelerated vertically downward, and divided into two sets of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increasing power output Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration Added in Vertical Vacuum Vertically Accelerated Downward to Select from Existing Materials Long Lens (2d) to Achieve Power Generation Increase Opposite Series All Blades Bumping Wheel Water Turbine · Opposite All Series Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + addition of vaporization and explosion power + gravity acceleration in a vacuum, vertically accelerated downward, from the existing lens cross section to the selected section length lens (2d) to aim sunlight to the water (52b) tube Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to maintain an adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increasing power generation. Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) manufactured from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B), aiming to increase the amount of power generation. Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically in a vacuum, accelerated vertically downward, and divided into two sets of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increasing power output Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosive Force + Gravity Acceleration Added in Vertical Vacuum Vertically Accelerated Downward to Select from Existing Materials Long Lens (2d) to Achieve Power Generation Increase Opposite Series All Blades Bumping Wheel Water Turbine · Opposite All Series Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + addition of vaporization and explosion power + gravity acceleration in a vacuum, vertically accelerated downward, from the existing lens cross section to the selected section length lens (2d) to aim sunlight to the water (52b) tube Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward to maintain an adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increasing power generation. Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Opposite in-line all moving blade springing wheel water turbine aiming to increase power generation by increasing the width of the long lens (2d) by adding the vaporization explosion power + gravity acceleration vertically downward and increasing the width of the long lens (2d) tightening the split clamp (80B)・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Add an evaporative explosion power + gravitational acceleration vertically downward, divide and install multiple long lenses (2d) of tightening tool (80B) tightening to aim at increasing power generation by opposing series all moving blade springing wheel Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Opposite in-line all-rotor blade springing wheel water turbine, opposite-in-line all-wing blade springing wheel gas aims to increase power generation by adding up the vaporization explosion power + gravity acceleration vertically downward and making the selected lens (2d) longer from the existing materials Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Evaporative explosion power + gravity acceleration added vertically accelerated downward, from the existing lens cross section to the selected section length lens (2d) to aim the sunlight (water tube 52b) tube to increase the amount of concentrated electricity generation Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Add an evaporative explosion + gravity acceleration to accelerate vertically downwards, keep the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum, and aim to increase the amount of power generation. Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the split clamp (80B) clamp long lens Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming to increase the width of (2d) to increase the power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + add vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, split and clamp (80B) clamp Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages with multiple long lenses (2d) set as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to make selected long lens (2d) long from existing materials The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction accelerated vertically downward and select section length lens (2d) from the existing lens section Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are installed in multiple stages aiming to increase concentrated power generation amount of sunlight to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat recovery of the internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and the adiabatic long lens (2d) A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade flywheels gas turbines are provided in multiple stages to aim at increasing power generation by maintaining the sunlight at near right angles and aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine installed in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat recovery with heat pump (1G) + Evaporative detonation force + addition of gravity acceleration in a vacuum Accelerate vertically downward from existing materials to increase power output with selected long lenses (2d) facing in-line total Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy preservation cycle combined engines of the power generation method which is provided with opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine installed in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat recovery with heat pump (1G) + Evaporative detonation force + addition of gravity acceleration in a vacuum Accelerate vertically downward from existing materials to increase power output with selected long lenses (2d) facing in-line total Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy preservation cycle combined engines of the power generation method which is provided with opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Add compression heat recovery + Evaporative explosion force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) and increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward, divided, and a set of multiple long lenses (2d) for tightening (80B) tightening is provided to generate power Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Compressive heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) selected from existing materials Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Add compression heat recovery + Evaporative explosion power + Gravity acceleration in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added vertically in vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to generate power Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward, divided clamp (80B) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are provided in multiple stages to increase the width of tightening long lens (2d) to increase power generation .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + add vertical acceleration downward, divide the internal air (28a) in the vertical direction and divide the fastener ( 80B) Various energy conservation cycles of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages by aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add vaporizing explosive power + gravitational acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to select the selected cross section length from the existing lens cross section Various energy preservation cycle combination of the electric power generation method which installed the opposing in-line all moving blade springing car water turbine and the opposing in-line all moving wing elastic car gas turbine in multiple stages aiming at the sunlight (water tube 52b) tube with sunlight by lens (2d) organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward to adiabatic at the part close to vacuum Various energy conservation cycles of the power generation method that multistage opposing turbine blade water turbines and opposed tandem blade turbines gas turbines are provided in order to increase power generation by maintaining long lens (2d) and sunlight at right angle near to each other Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount by increasing the width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy preservation cycle combined engines of the power generation method which set up 2 d) as a set and aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation near the right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy preservation cycle combined engines of the power generation method which installed opposite series whole moving blade water turbine and opposite series moving whole blade elastic wheel gas turbine in multiple stages aiming at increasing the width of 2d) and increasing power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation cycle combined engines of power generation method which is provided with long lenses (2d) as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which is provided with multistage opposed all-in-line all-wheels wheel water turbine and anti-all-in-line all-in-round all-wheels wheeled gas turbine to increase concentrated power generation to light water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by maintaining solar light at near right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount by increasing the width.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy preservation cycle combined engines of the power generation method which set up 2 d) as a set and aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation near the right angle.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple length lens (2d) of the clamp (80B) clamp The various energy preservation cycle combined engines of the power generation method which provided opposite series full moving blade water turbine and opposite series full moving blade elastic wheel gas turbine in multiple stages to aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to increase power output by increasing the power of selected lenses (2d) from existing materials Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward to select sunlight from cross section of existing lens with water (52b) pipe with water (52b) tube The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and in the part close to vacuum, adiabatic long lens (2d) and sunlight at right angle Various energy preservation cycle combined engines of the power generation method which set up opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages to maintain and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat amount + add vaporizing explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) Various energy storage cycle coalescing engines of the power generation method which is provided with multi-long lenses (2d) attached as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make a selected lens from existing materials Long lens (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing buttoned wheel gas turbine in multiple stages aiming at the increase of the power generation amount by making long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross-section length lens from existing lens cross-section (2d A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount of sunlight to water (52b) pipes.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposed series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining sunlight at near right angles and aiming at increasing power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided in a set and aimed at the increase in the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens from the existing material longer and increase the power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages to aim at the power generation amount increase maintained by.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount by increasing the width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which set up 2 d) as a set and aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation near the right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided in a set and aimed at the increase in the amount of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens from the existing material longer and increase the power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages to aim at the power generation amount increase maintained by.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in a vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing material aiming at increased power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosion power + gravity acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Various energy conservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to divide and clamp (80B) Various energy storage cycle coalescing engines of the power generation method with multiple opposing long blade moving wheel water turbines and opposing series full moving blade elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple tightening lenses (2d) as a set .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, select lens made from existing material, long lens (2d A variety of energy conservation cycle combined engines of power generation method which is provided with opposing series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines in multiple stages aiming to increase power generation capacity by lengthening the size of.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravity acceleration in vacuum add acceleration vertically downward and select lens from selected lens cross section Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring car water turbine and the opposed series all moving wing bounty gas turbine in multiple stages aiming at the sunlight (water) 52b pipe in 2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downwards, length of heat insulation in the part close to vacuum Various energy storage cycle coalescing engines of power generation method with opposing series all moving blades water turbine and opposing series all moving blades gas turbine arranged in multiple stages to aim at increasing power generation by maintaining lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages aiming at increase of the width of the power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp (2d) Set as a set to increase power generation A variety of energy storage cycle coalescence engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving systems gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed opposing multi-stage all-impeller impeller water turbine and anti-parallel multi-stage rotary impeller gas turbine in multiple stages to increase concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages to maintain the light near the right angle to increase the power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection and burning + vaporization and explosion power + additional gravity acceleration in a vacuum, accelerating vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection / burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward from the existing material to make the selected manufacturing long lens (2d) longer to aim at increasing power output Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to concentrate sunlight on the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the container (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to increase the width of the split lens (80B) clamping long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to divide and set the multiple length lens (2d) of the clamp (80B) clamp The various energy preservation cycle combined engines of the power generation method which provided opposite series full moving blade water turbine and opposite series full moving blade elastic wheel gas turbine in multiple stages to aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravity acceleration is added vertically in vacuum and accelerated vertically downward to make the selected lens (2d) longer from the existing material, aiming at increasing power generation Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is increased to the maximum + the evaporation explosion power + gravitational acceleration is added vertically downward in the vacuum chamber (2) and the sunlight is accelerated by the vertical cross section from the existing lens cross section with the selected cross section lens (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the vessel (2) + the vaporization explosion power + gravity acceleration is added vertically downward in vacuum and accelerated vertically downward, and the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy preservation cycle combined engines of the power generation method which set up opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages to maintain and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + Evaporative Explosion Force + Add Gravity Acceleration in a Vacuum Accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to aim at increasing power generation Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + add vaporization and explosion force + gravity acceleration in a vacuum, accelerate vertically downward, divide, and provide multiple length lenses (2d) of tightening (80B) tightening as opposed to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase in gas + Evaporative explosion force + addition of gravity in vacuum Vertical acceleration in the downward direction to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase in + + Evaporative Explosion Force + Add Gravity Acceleration in a Vacuum Accelerate vertically downward, from the existing lens cross section to select water from the existing lens cross section lens (2d) aiming to increase the amount of concentrated power generation to water (52b) tube Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + add evaporative explosive force + gravity acceleration in vacuum Vertically accelerate in the downward direction to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum and aim to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Detonation Power Maximize + Add Vaporization Explosion + Gravity Acceleration in Vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) selected from existing materials・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + Evaporative Explosion Force + Add Gravity Acceleration in a Vacuum Accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to aim at increasing power generation Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + add vaporization and explosion force + gravity acceleration in a vacuum, accelerate vertically downward, divide, and provide multiple length lenses (2d) of tightening (80B) tightening as opposed to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase in gas + Evaporative explosion force + addition of gravity in vacuum Vertical acceleration in the downward direction to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase in + + Evaporative Explosion Force + Add Gravity Acceleration in a Vacuum Accelerate vertically downward, from the existing lens cross section to select water from the existing lens cross section lens (2d) aiming to increase the amount of concentrated power generation to water (52b) tube Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + add evaporative explosive force + gravity acceleration in vacuum Vertically accelerate in the downward direction to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum and aim to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Opposite in-line all moving blade springing water to increase power generation by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by increasing the vaporization explosion power + gravity acceleration vertically downward and increasing the divided clamp (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Opposite series all moving blades aiming to increase power generation by installing set of multi-length lenses (2d) by clamping and adding clamps (80B) and tightening by accelerating vertically downward by adding vaporization and explosion power + gravitational acceleration inside. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) made from existing materials. Opposite Series All Blades Bumping Wheel Water Turbine · Opposed Series All Blade Bumping Wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Evaporative force + acceleration of gravity added in the vertical direction to accelerate vertically downward, to increase the amount of concentrated power generation from the existing lens cross-section to the sunlight (water tube 52b) tube with selected cross-section length lens (2d) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum In the case of opposing series all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at the portion close to vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Opposite in-line all moving blade springing water to increase power generation by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by increasing the vaporization explosion power + gravity acceleration vertically downward and increasing the divided clamp (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Opposite series all moving blades aiming to increase power generation by installing set of multi-length lenses (2d) by clamping and adding clamps (80B) and tightening by accelerating vertically downward by adding vaporization and explosion power + gravitational acceleration inside. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) made from existing materials. Opposite Series All Blades Bumping Wheel Water Turbine · Opposed Series All Blade Bumping Wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Evaporative force + acceleration of gravity added in the vertical direction to accelerate vertically downward, to increase the amount of concentrated power generation from the existing lens cross-section to the sunlight (water tube 52b) tube with selected cross-section length lens (2d) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum In the case of opposing series all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at the portion close to vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Opposite in-line all moving blade springing water to increase power generation by increasing the width of the long lens (2d) by increasing the width of the long lens (2d) by increasing the vaporization explosion power + gravity acceleration vertically downward and increasing the divided clamp (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Opposite series all moving blades aiming to increase power generation by installing set of multi-length lenses (2d) by clamping and adding clamps (80B) and tightening by accelerating vertically downward by adding vaporization and explosion power + gravitational acceleration inside. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) made from existing materials. Opposite Series All Blades Bumping Wheel Water Turbine · Opposed Series All Blade Bumping Wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Evaporative force + acceleration of gravity added in the vertical direction to accelerate vertically downward, to increase the amount of concentrated power generation from the existing lens cross-section to the sunlight (water tube 52b) tube with selected cross-section length lens (2d) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum In the case of opposing series all moving blades aiming to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angle by accelerating the vaporization explosion power + gravitational acceleration vertically downward and maintaining the adiabatic long lens (2d) and sunlight at the portion close to vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating the vaporization explosion power + gravitational acceleration vertically downward in the optical heater (2) + vacuum A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and fixed length lenses (2d) as a set to generate electricity Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + add evaporative explosion power + gravitational acceleration in a vacuum vertically accelerated downward from the existing material to increase power output with long lens (2d) manufactured from existing materials Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section long lens (2 d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a perpendicular angle in the part brought close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air air compression heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the split clamp (80B) tightening long lens (2d) width The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate split clamp (80B) tightening Various energy conservation cycle combined engines of power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide Various series of power generation methods with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines installed in multiple stages to increase power generation by increasing the width of attachment (80B) fixed long lens (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration vertically in vacuum, accelerate vertically downward, split fastener ( 80B) Various energy conservation cycles of the power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages to increase the width of tightening long lens (2d) and increase power generation Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertical acceleration vertically, split fastener (80B) Various energy conservation of the power generation method which installed opposing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of tightening long lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to divide, divide and clamp (80B) clamp multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which provided in a set and aimed at the increase in the amount of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and tighten clamp (80B) Various energy storage cycle coalescing engines of the power generation method which is provided with multi-long lenses (2d) attached as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide Power generation method using multi-longitudinal blade moving wheel water turbine and opposing series all blade moving ball elastic wheel gas turbine installed in multiple stages to aim at increasing power generation by providing multiple long lenses (2d) by tightening fasteners (80B) as a set The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp Various types of energy of the power generation method where multiple series long blade impact wheel water turbines and opposite series full bucket energy wheel gas turbines are provided in multiple stages to aim at increase of power generation by providing multiple set length lenses (2d) tightened by tool (80B) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add additional vertically downward to divide and clamp Various sets of power generation methods using multiple opposing long blade moving wheel water turbines and opposing straight all blade moving wheel elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple set length lenses (2d) with attached fixtures (80B). Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Add heat inside the air in compression heat recovery + vacuum, add vaporization power + gravity acceleration vertically downward, and aim to increase power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate selected organic lens from existing materials Long lens (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing buttoned wheel gas turbine in multiple stages aiming at the increase of the power generation amount by making long.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosivity + gravity acceleration in a vacuum add acceleration vertically downward, existing material Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving blade elastic car gas turbine in multiple stages to aim at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select from existing materials Various energy conservation cycle combined engines of power generation method with opposing series all moving blades water turbine and opposite series all moving blades gas turbine installed in multiple stages aiming at increasing power generation by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward to select from existing materials Various energy conservation cycle combined engines of power generation method which has opposing series all moving blade water turbine and opposing series all moving blade elastic wheel gas turbine installed in multiple stages aiming at increasing power generation by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to accelerate sunlight from the existing lens cross section with selected cross section lens (2d) water (52b) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate from the existing lens cross section A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount of sunlight to water (52b) pipes.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, existing lens From the cross section, select solar light with water (52b) pipe with selected cross-section length lens (2d) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + acceleration of gravity in vacuum vertically downward to select from existing lens cross section Various energy conservation of the power generation method that multistage opposing turbine blade water turbine and opposing turbine blade wheel turbine gas turbine are provided in multiple stages aiming at increasing concentrated power generation to sunlight through water (52b) tube with cross section lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward from existing lens cross section Various energy of the power generation method that multistage opposed blade all-wheels wheel water turbines and counter-series all bladed wheel elastic wheels gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount to sunlight by water (52b) pipe with selected cross-section length lens (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to accelerate the vertical direction, the long lens (2d) of the heat insulation in the part close to the vacuum and the sunlight The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages to aim at the power generation amount increase maintained by.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposed series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining sunlight at near right angles and aiming at increasing power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to vacuum A power generation method with multistage opposed all-in-line rotor ballistic wheel water turbines and opposite-in-line all rotor blade elastic wheel gas turbines for aiming at increasing power generation by maintaining adiabatic long lens (2d) and solar light at right angle in the near part The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downwards, part brought close to vacuum The power of the power generation method with multiple stages of opposing series all moving blades water turbine and opposing series all moving blades gas turbine installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward and brought close to vacuum Various kinds of power generation methods in which opposing series all moving blade springing car water turbine and opposing series all moving wing elastic car gas turbine are provided in multiple stages aiming at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle in the part Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Add internal air to compression heat recovery + add vaporizing explosion power + gravitational acceleration in vacuum in vertical direction to accelerate vertically downward to achieve the same water volume maximum generation amount Opposed series All moving blades Bumping wheel Water turbine · Opposed series all Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward to achieve maximum power generation with the same amount of water Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the same amount of water Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at maximum power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to generate the same amount of water maximum power The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, same water amount maximum power generation Various energy preservation cycle combined engines of power generation method which installed opposing multi-stage all moving wheel water turbine and opposite multi-stage moving multi-wheel gas turbine in multiple stages aiming at quantity.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + Add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + Add evaporative explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Add the evaporative explosion power + gravitational acceleration vertically in a close proximity to etc + + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split clamp (80B) clamp the length of the long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) And so on perpendicular to + + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, split and clamp (80B) tightening multiple lenses (2d) Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right and so on + solar light heater (2) + add vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle with + + solar light heater (2) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right and so on + solar light heater (2) + add evaporative explosion power + gravitational acceleration in the vacuum vertically accelerating vertically downward to make the adiabatic long lens (2d) and the sun light at right angle at the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + Add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + Add evaporative explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightened by the split clamp (80B), thereby increasing power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and multiple length lenses (2d) tightened to generate electricity Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum, vertically accelerated downward, to increase power output by selecting a long lens (2d) selected from existing materials Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section lens (2 d) Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + Add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + Add evaporative explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Opposite series all moving blades aiming to increase power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically increasing the vaporization explosion power + gravity acceleration downward in + vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward, divide and install multiple long lenses (2d) of tightening tool (80B) tightening to aim at increasing power generation Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + In vacuum, add evaporative explosion power + add gravity acceleration vertically downward to accelerate the power generation by increasing the amount of power generation by selecting a long lens (2d) from existing materials Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + In vacuum, add evaporative detonation power + acceleration of gravity vertically downward and aim for increasing the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by the selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increasing power generation Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Increase the width of the split lens (80B) clamping long lens (2d) by approaching vertically with + solar light heater (2) + add evaporative explosion power + gravitational acceleration in vacuum in vertical direction The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple fasteners (80B) with multiple lenses (2d) Various energy preservation cycle combined engines of the power generation method which provided in a set and aimed at the increase in the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to perpendicular to + + solar light heater (2) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to make the selected lens from existing materials longer to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the vaporization explosion force + gravitational acceleration in a vacuum, accelerate vertically downwards, and make the adiabatic long lens (2d) and sunlight close to a right angle in the part close to the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages to aim at the power generation amount increase maintained by.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add an evaporative explosive force + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B), and aim at increasing power generation. Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamps to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward, and aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with the selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating the vaporization explosion power + gravitational acceleration vertically downward in the optical heater (2) + vacuum A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and fixed length lenses (2d) as a set to generate electricity Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + add evaporative explosion power + gravitational acceleration in a vacuum vertically accelerated downward from the existing material to increase power output with long lens (2d) manufactured from existing materials Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section long lens (2 d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a perpendicular angle in the part brought close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add an evaporative explosive force + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B), and aim at increasing power generation. Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamps to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward, and aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with the selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Opposite in-line all-rotor blade springing wheel aiming to increase power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration downward in the vacuum and adding vertically downward Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Add the vaporization explosion power + gravity acceleration vertically downward in a vacuum, divide it, and install multiple long lenses (2d) of tightening tool (80B) tightening in order to increase power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line all moving blades aiming to increase power output by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum and making selected lenses (2d) longer from existing materials Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Opposite series all moving blades aiming to increase the concentrated power generation amount from the existing lens section to the water (52b) pipe by accelerating the vaporization explosion power + gravity acceleration vertically downward in vacuum and using the existing lens section with the selected section length lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Evaporative explosion power + acceleration of gravity is additionally added vertically downward in a vacuum to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increasing power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal air compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward, split clamp (80B) clamp long lens ( Various energy preservation cycle combined engines of the power generation method which installed opposite series whole moving blade water turbine and opposite series moving whole blade elastic wheel gas turbine in multiple stages aiming at increasing the width of 2d) and increasing power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + add evaporative explosion power + gravity acceleration in vertical direction vertically accelerated, divided into multiple clamps (80B) clamp Various energy conservation cycle combined engines of power generation method which is provided with long lenses (2d) as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) Internal air compressed heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward to make the selected manufacturing long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated downward, from the existing lens cross section to the selected cross-section length lens (2d) sun Various energy conservation cycle combined engines of power generation method which is provided with multistage opposed all-in-line all-wheels wheel water turbine and anti-all-in-line all-in-round all-wheels wheeled gas turbine to increase concentrated power generation to light water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated downward, vacuum a portion of the adiabatic long lens (2d) And various energy preservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by maintaining solar light at near right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress internal heat with compression heat recovery + add vaporizing explosive force + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) clamp by tightening the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Internal heat air compression heat recovery + addition of vaporization explosion power + acceleration of gravity in a vacuum to accelerate vertically downward to divide and set a plurality of long lenses (2d) of tightening (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add internal heat in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward and accelerate from existing material to selected production long lens (2d) aiming to increase power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress the internal air into compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to concentrate the sunlight into the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, and keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air air compression heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the split clamp (80B) tightening long lens (2d) width The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to divide, divide and clamp (80B) clamp multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which provided in a set and aimed at the increase in the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Add heat inside the air in compression heat recovery + vacuum, add vaporization power + gravity acceleration vertically downward, and aim to increase power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to accelerate sunlight from the existing lens cross section with selected cross section lens (2d) water (52b) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to accelerate the vertical direction, the long lens (2d) of the heat insulation in the part close to the vacuum and the sunlight The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages to aim at the power generation amount increase maintained by.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress internal heat with compression heat recovery + add vaporizing explosive force + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) clamp by tightening the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Internal heat air compression heat recovery + addition of vaporization explosion power + acceleration of gravity in a vacuum to accelerate vertically downward to divide and set a plurality of long lenses (2d) of tightening (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add internal heat in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward and accelerate from existing material to selected production long lens (2d) aiming to increase power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress the internal air into compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to concentrate the sunlight into the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, and keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Recovery of air by compression heat recovery + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Increase heat generation by compression heat recovery + add vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Opposite in-line all moving blade springing wheel water turbine aiming to increase power output by selecting air from compression heat recovery + evaporation evaporative explosion power + gravity acceleration added vertically downward in vacuum to make the selected long lens (2d) from existing materials longer・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat the air in compression heat recovery + add the vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat recovery of air + Evaporative explosion + addition of gravitational acceleration in a vacuum Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) Compressive heat recovery + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerated downward, split fastener (80B) Various energy conservation of the power generation method which installed opposing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of tightening long lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle to + solar light heater (2) internal heat (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically in the vacuum, divided vertically and divided Various sets of power generation methods using multiple opposing long blade moving wheel water turbines and opposing straight all blade moving wheel elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple set length lenses (2d) with attached fixtures (80B). Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downward to select from existing materials Various energy conservation cycle combined engines of power generation method which has opposing series all moving blade water turbine and opposing series all moving blade elastic wheel gas turbine installed in multiple stages aiming at increasing power generation by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) Compressive heat recovery + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward from existing lens cross section Various energy of the power generation method that multistage opposed blade all-wheels wheel water turbines and counter-series all bladed wheel elastic wheels gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount to sunlight by water (52b) pipe with selected cross-section length lens (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downward and brought close to vacuum Various kinds of power generation methods in which opposing series all moving blade springing car water turbine and opposing series all moving wing elastic car gas turbine are provided in multiple stages aiming at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle in the part Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum and accelerated vertically downwards, split clamp (80B) clamp long lens ( Various energy preservation cycle combined engines of the power generation method which installed opposite series whole moving blade water turbine and opposite series moving whole blade elastic wheel gas turbine in multiple stages aiming at increasing the width of 2d) and increasing power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add internal heat (28a) with heat pump (1G) in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide and divide multiple clamps (80B) Various energy conservation cycle combined engines of power generation method which is provided with long lenses (2d) as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add heat inside the air (28a) with compression heat recovery with heat pump (1G) + add detonation force + gravitational acceleration vertically downward and accelerate the selected material from existing materials vertically to make the long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat the internal air (28a) with a heat pump (1G) + add vaporization power + gravitational acceleration in compression heat recovery + vacuum and accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which is provided with multistage opposed all-in-line all-wheels wheel water turbine and anti-all-in-line all-in-round all-wheels wheeled gas turbine to increase concentrated power generation to light water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and adiabatic long lens (2d) at the part brought close to vacuum And various energy preservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by maintaining solar light at near right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate split clamp (80B) tightening Various energy conservation cycle combined engines of power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and tighten clamp (80B) Various energy storage cycle coalescing engines of the power generation method which is provided with multi-long lenses (2d) attached as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate selected organic lens from existing materials Long lens (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing buttoned wheel gas turbine in multiple stages aiming at the increase of the power generation amount by making long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate from the existing lens cross section A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount of sunlight to water (52b) pipes.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposed series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining sunlight at near right angles and aiming at increasing power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum and accelerated vertically downwards, split clamp (80B) clamp long lens ( Various energy preservation cycle combined engines of the power generation method which installed opposite series whole moving blade water turbine and opposite series moving whole blade elastic wheel gas turbine in multiple stages aiming at increasing the width of 2d) and increasing power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add internal heat (28a) with heat pump (1G) in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide and divide multiple clamps (80B) Various energy conservation cycle combined engines of power generation method which is provided with long lenses (2d) as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add heat inside the air (28a) with compression heat recovery with heat pump (1G) + add detonation force + gravitational acceleration vertically downward and accelerate the selected material from existing materials vertically to make the long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat the internal air (28a) with a heat pump (1G) + add vaporization power + gravitational acceleration in compression heat recovery + vacuum and accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which is provided with multistage opposed all-in-line all-wheels wheel water turbine and anti-all-in-line all-in-round all-wheels wheeled gas turbine to increase concentrated power generation to light water (52b) pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and adiabatic long lens (2d) at the part brought close to vacuum And various energy preservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by maintaining solar light at near right angle.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat heat compression (air heat 28a) with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the width of split fastener (80B) and width of long lens (2d) Various energy preservation cycle combined engines of the power generation method which provided opposite series full moving blade water turbine and opposite series full moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization and explosion power + additional gravity acceleration is accelerated vertically downward to divide and clamp multiple fasteners (80B) with multiple lenses (2d) Various energy conservation cycle combined engines of the power generation method which set up in a set and aim at increase of the generation of electricity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward to accelerate vertically downward from existing materials to increase power generation by making selected manufacturing long lens (2d) longer A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward and accelerated vertically downward to make sunlight water with selected cross section lens (2d) from existing lens cross section 52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat the air (28a) with a heat pump (1G) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and sunlight at the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade spring wheel water turbine and opposite series all moving wing spring wheel gas turbine in multiple stages maintained at near right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward To increase the power generation by accelerating the width of the long lens (2d) by tightening the split clamp (80B) to increase the power generation capacity Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Opposite in-line all moving blade springing wheel water turbine · Opposing in-line all moving blade springing wheel gas turbine aiming at increasing power generation by providing a set of multiple length lenses (2d) by accelerating and dividing and tightening the tightening tool (80B) Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Opposite in-line all moving blade spring wheel water turbine · Opposing in-line all moving blade spring wheel gas turbine is installed in multiple stages Various energy conservation of power generation method provided with multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Accelerate the surface of the existing lens cross section to select sunlight from the existing lens cross section to the water (52b) pipe to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Opposite in-line all-rotor-bottled-wheel water turbine · Opposite-series-all-rotor alligator bog-wheeler gas turbine that aims to increase power generation by maintaining the adiabatic long lens (2d) and solar light at right angle by accelerating near the vacuum Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide fasteners (2) 80B) Various energy conservation cycles of the power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages to increase the width of tightening long lens (2d) and increase power generation Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to divide and tighten Various types of energy of the power generation method where multiple series long blade impact wheel water turbines and opposite series full bucket energy wheel gas turbines are provided in multiple stages to aim at increase of power generation by providing multiple set length lenses (2d) tightened by tool (80B) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy conservation cycle combined engines of power generation method with opposing series all moving blades water turbine and opposite series all moving blades gas turbine installed in multiple stages aiming at increasing power generation by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward and select from existing lens cross section Various energy conservation of the power generation method that multistage opposing turbine blade water turbine and opposing turbine blade wheel turbine gas turbine are provided in multiple stages aiming at increasing concentrated power generation to sunlight through water (52b) tube with cross section lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to a part close to the vacuum The power of the power generation method with multiple stages of opposing series all moving blades water turbine and opposing series all moving blades gas turbine installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide Various series of power generation methods with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines installed in multiple stages to increase power generation by increasing the width of attachment (80B) fixed long lens (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide Power generation method using multi-longitudinal blade moving wheel water turbine and opposing series all blade moving ball elastic wheel gas turbine installed in multiple stages to aim at increasing power generation by providing multiple long lenses (2d) by tightening fasteners (80B) as a set The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosivity + gravity acceleration in a vacuum add acceleration vertically downward, existing material Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving blade elastic car gas turbine in multiple stages to aim at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, existing lens From the cross section, select solar light with water (52b) pipe with selected cross-section length lens (2d) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to vacuum A power generation method with multistage opposed all-in-line rotor ballistic wheel water turbines and opposite-in-line all rotor blade elastic wheel gas turbines for aiming at increasing power generation by maintaining adiabatic long lens (2d) and solar light at right angle in the near part The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide fasteners (2) 80B) Various energy conservation cycles of the power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages to increase the width of tightening long lens (2d) and increase power generation Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to divide and tighten Various types of energy of the power generation method where multiple series long blade impact wheel water turbines and opposite series full bucket energy wheel gas turbines are provided in multiple stages to aim at increase of power generation by providing multiple set length lenses (2d) tightened by tool (80B) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy conservation cycle combined engines of power generation method with opposing series all moving blades water turbine and opposite series all moving blades gas turbine installed in multiple stages aiming at increasing power generation by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward and select from existing lens cross section Various energy conservation of the power generation method that multistage opposing turbine blade water turbine and opposing turbine blade wheel turbine gas turbine are provided in multiple stages aiming at increasing concentrated power generation to sunlight through water (52b) tube with cross section lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to a part close to the vacuum The power of the power generation method with multiple stages of opposing series all moving blades water turbine and opposing series all moving blades gas turbine installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + accelerate vertically downward to clamp the split fastener (80B) Various energy conservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + gravity acceleration in the vacuum + add vertical acceleration vertically to divide and clamp the fastener (80B) Various energy storage cycle coalescing engines of the power generation method with multiple opposing long blade moving wheel water turbines and opposing series full moving blade elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple tightening lenses (2d) as a set .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to make the selected lens from existing materials Long lens (2d) A variety of energy conservation cycle combined engines of power generation method which is provided with opposing series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines in multiple stages aiming to increase power generation capacity by lengthening the size of.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to select cross section lens from the existing lens cross section Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring car water turbine and the opposed series all moving wing bounty gas turbine in multiple stages aiming at the sunlight (water) 52b pipe in 2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to lengthen the heat insulation in the part close to vacuum Various energy storage cycle coalescing engines of power generation method with opposing series all moving blades water turbine and opposing series all moving blades gas turbine arranged in multiple stages to aim at increasing power generation by maintaining lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward To increase power generation by increasing the width of the split fastener (80B) and the long lens (2d), power generation is achieved by providing opposed series all moving blade springing car water turbine and opposed series all moving wing flexible car gas turbine in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward Opposite in-line all-rotor-impeller wheel water turbine · Opposite-in-line all-rotor impeller bouncer gas turbine is provided in multiple stages by dividing and installing multiple long lenses (2d) for tightening fasteners (80B) in order to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward Various energy saving cycle coalescence engines of power generation method provided with opposed series all moving blades water turbines and opposed series all moving blades elastic cars gas turbines aimed at increasing power generation by selecting long lenses (2d) selected from existing materials .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward From the existing lens cross section to select solar light with water (52b) tube with selected cross-section long lens (2d) facing multistage opposed blade all-wheels wheeled wheel water turbines and opposed series all-wafers ballered wheel gas turbines in multiple stages Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum, facing in-line all moving blade springing wheel water turbine and facing in-line all moving blade springing wheel gas turbine Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate the divided clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of attached long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air with water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and divide it into fasteners (80B Aim to increase power generation by providing multiple tightening lenses (2d) as a set to achieve different series of energy saving cycles combining power generation methods with multistage opposed bladed wheel water turbines and opposed series whole bladed wheeled gas turbines installed in multiple stages organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravitational acceleration in vacuum and accelerate vertically downward to make a selected lens from existing materials Various energy preservation cycle combined engines of the power generation method which installed opposite opposed series all moving blade water turbine water turbine and opposite series all moved blade elastic wheel gas turbine in multiple stages aiming at power generation increase by lengthening 2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization power + gravity acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from the existing lens cross section Various energy storage cycle coalescing engines of the power generation method provided with multistage opposing turbine blade water turbines and opposed tandem blade turbines gas turbines aiming to increase the concentrated power generation amount of sunlight to water (52b) pipe in (2d) .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in a vacuum + accelerate vertically downward and adiabatic at the part close to vacuum Various energy conservation cycle combination of electric power generation method which installed opposing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages to maintain power generation amount by maintaining long lens (2d) and sunlight at right angle vicinity organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration vertically in vacuum, accelerate vertically downward, split fastener ( 80B) Various energy conservation cycles of the power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages to increase the width of tightening long lens (2d) and increase power generation Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp Various types of energy of the power generation method where multiple series long blade impact wheel water turbines and opposite series full bucket energy wheel gas turbines are provided in multiple stages to aim at increase of power generation by providing multiple set length lenses (2d) tightened by tool (80B) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select from existing materials Various energy conservation cycle combined engines of power generation method with opposing series all moving blades water turbine and opposite series all moving blades gas turbine installed in multiple stages aiming at increasing power generation by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + acceleration of gravity in vacuum vertically downward to select from existing lens cross section Various energy conservation of the power generation method that multistage opposing turbine blade water turbine and opposing turbine blade wheel turbine gas turbine are provided in multiple stages aiming at increasing concentrated power generation to sunlight through water (52b) tube with cross section lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downwards, part brought close to vacuum The power of the power generation method with multiple stages of opposing series all moving blades water turbine and opposing series all moving blades gas turbine installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate the divided clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of attached long lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air with water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and divide it into fasteners (80B Aim to increase power generation by providing multiple tightening lenses (2d) as a set to achieve different series of energy saving cycles combining power generation methods with multistage opposed bladed wheel water turbines and opposed series whole bladed wheeled gas turbines installed in multiple stages organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravitational acceleration in vacuum and accelerate vertically downward to make a selected lens from existing materials Various energy preservation cycle combined engines of the power generation method which installed opposite opposed series all moving blade water turbine water turbine and opposite series all moved blade elastic wheel gas turbine in multiple stages aiming at power generation increase by lengthening 2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization power + gravity acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from the existing lens cross section Various energy storage cycle coalescing engines of the power generation method provided with multistage opposing turbine blade water turbines and opposed tandem blade turbines gas turbines aiming to increase the concentrated power generation amount of sunlight to water (52b) pipe in (2d) .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in a vacuum + accelerate vertically downward and adiabatic at the part close to vacuum Various energy conservation cycle combination of electric power generation method which installed opposing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages to maintain power generation amount by maintaining long lens (2d) and sunlight at right angle vicinity organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, long lens with divided clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming to increase the width of (2d) to increase the power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and clamp the fastener (80B) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages with multiple long lenses (2d) set as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make the selected long lens (2d) long from the existing material The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the power generation amount increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from existing lens cross section (2d) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are installed in multiple stages aiming to increase concentrated power generation amount of sunlight to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and adiabatic long lens (2d) A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade flywheels gas turbines are provided in multiple stages to aim at increasing power generation by maintaining the sunlight at near right angles and aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward To increase power generation by increasing the width of the split fastener (80B) and the long lens (2d) tightened, multistage opposed rotary bladed wheel water turbines and opposed series rotary bladed wheeled roller gas turbines are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward Multi-long lenses (2d) for tightening and securing fasteners (80B) together as a set to aim at increasing power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward The energy saving cycle combination of the power generation method in which opposing series full moving blade water spring and opposing series full moving blade elastic wheel gas turbine are provided in multiple stages aiming to increase the power generation amount by selecting long lenses (2d) selected from existing materials organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward In order to increase the amount of concentrated power generation with the sunlight (water tube 52b) by selecting a lens lens cross section from the existing lens cross section Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight in the vicinity of a right angle at the part close to the vacuum and aiming at the increase of power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward, split fastener (80B) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are provided in multiple stages to increase the width of tightening long lens (2d) to increase power generation .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp 80B) Various energy conservation cycles of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages by aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy preservation cycle combination of the electric power generation method which installed the opposing in-line all moving blade springing car water turbine and the opposing in-line all moving wing elastic car gas turbine in multiple stages aiming at the sunlight (water tube 52b) tube with sunlight by lens (2d) organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward and adiabatic at the part close to vacuum Various energy conservation cycles of the power generation method that multistage opposing turbine blade water turbines and opposed tandem blade turbines gas turbines are provided in order to increase power generation by maintaining long lens (2d) and sunlight at right angle near to each other Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertical acceleration vertically, split fastener (80B) Various energy conservation of the power generation method which installed opposing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of tightening long lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add additional vertically downward to divide and clamp Various sets of power generation methods using multiple opposing long blade moving wheel water turbines and opposing straight all blade moving wheel elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple set length lenses (2d) with attached fixtures (80B). Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward to select from existing materials Various energy conservation cycle combined engines of power generation method which has opposing series all moving blade water turbine and opposing series all moving blade elastic wheel gas turbine installed in multiple stages aiming at increasing power generation by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward from existing lens cross section Various energy of the power generation method that multistage opposed blade all-wheels wheel water turbines and counter-series all bladed wheel elastic wheels gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount to sunlight by water (52b) pipe with selected cross-section length lens (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward and brought close to vacuum Various kinds of power generation methods in which opposing series all moving blade springing car water turbine and opposing series all moving wing elastic car gas turbine are provided in multiple stages aiming at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle in the part Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward, split fastener (80B) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are provided in multiple stages to increase the width of tightening long lens (2d) to increase power generation .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp 80B) Various energy conservation cycles of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages by aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy preservation cycle combination of the electric power generation method which installed the opposing in-line all moving blade springing car water turbine and the opposing in-line all moving wing elastic car gas turbine in multiple stages aiming at the sunlight (water tube 52b) tube with sunlight by lens (2d) organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward and adiabatic at the part close to vacuum Various energy conservation cycles of the power generation method that multistage opposing turbine blade water turbines and opposed tandem blade turbines gas turbines are provided in order to increase power generation by maintaining long lens (2d) and sunlight at right angle near to each other Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + add vaporization and explosion power + gravity acceleration in vacuum vertically accelerating the divided clamp (80B) by tightening vertically Various energy conservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving impeller gas turbine in multiple stages aiming at increasing power generation by increasing the width of lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + add vaporization and explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and clamp the fastener (80B) The various energy storage cycle combined engines of the power generation method which installed multiple long lenses (2d) of the set as a set and aimed at the increase of the power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to make a selected lens from existing materials (2d) Various energy preservation cycle combined engines of the power generation method which set the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the increase of the power generation amount as long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + Fuel-injection-combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross-section length lens (2d) from existing lens cross-section The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade elastic vehicle gas turbine in multiple stages aiming at the increase of the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + fuel-jet burn and burn + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (close to vacuum) 2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle with sunlight.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to right angle + increase the vaporization explosion power maximum with solar light heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating down vertically, split clamp (80B) clamp long lens Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming to increase the width of (2d) to increase the power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right angle + increase the vaporization explosion power with solar light heater (2) maximum + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating downward, split and clamp (80B) tightening Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages with multiple long lenses (2d) set as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle + increase the vaporization explosive power maximum with solar light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating downward vertically to make a selected manufacturing long lens (2d) long from existing materials The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to perpendicular to + increase the vaporization explosive power maximum with solar light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating downwards vertically from the existing lens cross section with the selected cross section lens (2d) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are installed in multiple stages aiming to increase concentrated power generation amount of sunlight to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to perpendicular to + increase the vaporization explosion power maximum with solar light heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating downward, vacuum a portion of the adiabatic long lens (2d A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade flywheels gas turbines are provided in multiple stages to aim at increasing power generation by maintaining the sunlight at near right angles and aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and set the multi-length lens (2d) of clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine installed in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum vertically accelerating downward from the existing material to make the selected manufacturing long lens (2d) longer to aim at increasing power output Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which is provided with opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power to the maximum + Add the vaporization and explosion power and gravity acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) clamp with the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Evaporative explosion power is maximized by the light heater (2) + evaporation explosion power + gravitational acceleration is added vertically downward in vacuum and divided vertically and divided into multiple clamp lenses (2 d) Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate downward vertically to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explode force maximum with the light heater (2) + add the vaporization explode force + gravity acceleration in the vacuum vertically vertically downward to make the adiabatic long lens (2d) and the sun light at a right angle in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and set the multi-length lens (2d) of clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine installed in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum vertically accelerating downward from the existing material to make the selected manufacturing long lens (2d) longer to aim at increasing power output Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which is provided with opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power to the maximum + Add the vaporization and explosion power and gravity acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Vertically in Vacuum Accelerate Vertically Downwards to Increase Width of Split Lens (80B) Tightening Long Lens (2d) to Increase Power Generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Upward in Vacuum Accelerate Vertically Down, Split and Provide Multiple Length Lenses (2d) with Fasteners (80B) Fastening in Set Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration in Vacuum Accelerate Vertically Downwards from Existing Materials Select a Long Lens (2d) to Produce Increased Power Generation Opposite Series All Blades Bumping Wheel Water Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximal Increase + Evaporative Explosive Force + Gravity Acceleration Added Vertically Accelerated Vertically Downwards to Increase Concentrated Power Generation from Existing Lens Cross Section to Water (52b) Tube with Selected Sunlight Lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximal Increase + Evaporative Explosive Force + Gravity Acceleration Added Vertically Downward Accelerated Vertically to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum, and generate electricity Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Opposite in-line all-rotor blade springing wheel aiming to increase power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration downward in the vacuum and adding vertically downward Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Add the vaporization explosion power + gravity acceleration vertically downward in a vacuum, divide it, and install multiple long lenses (2d) of tightening tool (80B) tightening in order to increase power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line all moving blades aiming to increase power output by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum and making selected lenses (2d) longer from existing materials Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Opposite series all moving blades aiming to increase the concentrated power generation amount from the existing lens section to the water (52b) pipe by accelerating the vaporization explosion power + gravity acceleration vertically downward in vacuum and using the existing lens section with the selected section length lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Evaporative explosion power + acceleration of gravity is additionally added vertically downward in a vacuum to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increasing power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Opposite in-line all-rotor blade springing wheel aiming to increase power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration downward in the vacuum and adding vertically downward Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Add the vaporization explosion power + gravity acceleration vertically downward in a vacuum, divide it, and install multiple long lenses (2d) of tightening tool (80B) tightening in order to increase power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Opposite in-line all moving blades Bumping wheel water turbine · Opposing in-line all moving blades aiming to increase power output by adding vaporization explosion power + gravitational acceleration vertically downward in vacuum and making selected lenses (2d) longer from existing materials Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Opposite series all moving blades aiming to increase the concentrated power generation amount from the existing lens section to the water (52b) pipe by accelerating the vaporization explosion power + gravity acceleration vertically downward in vacuum and using the existing lens section with the selected section length lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Evaporative explosion power + acceleration of gravity is additionally added vertically downward in a vacuum to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increasing power generation by facing in-line total motion Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightened by the split clamp (80B), thereby increasing power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and multiple length lenses (2d) tightened to generate electricity Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum, vertically accelerated downward, to increase power output by selecting a long lens (2d) selected from existing materials Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section lens (2 d) Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal air compression heat recovery + vaporization evaporative force + gravitational acceleration is added vertically downward to accelerate the width of the split fastener (80B) tightening the length of the long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to clamp the split fastener (80B) Various energy conservation cycle combined engines of power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in the vacuum add acceleration vertically downward, split Aiming at increasing power generation by increasing the width of the tightening lens (80B) tightening long lens (2d) A power generation method with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines provided in multiple stages Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, split fastener (80B) Various energy conservation of the power generation method which installed opposing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of tightening long lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, split tightening Tools (80B) To increase power generation by increasing the width of the long lens (2d) tightened Various energy of power generation method in which opposing series all moving blades water spring and opposite series all moving blades gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward, divided into multiple fasteners (80B) clamps (2d) Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate and split vertically and divide (80B) Various energy storage cycle coalescing engines of the power generation method with multiple opposing long blade moving wheel water turbines and opposing series full moving blade elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple tightening lenses (2d) as a set .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in the vacuum add acceleration vertically downward, split Power generation system with multiple series of moving blade impacting wheel water turbines and opposed series moving blade impacting wheel gas turbines installed in multiple stages. How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in the vacuum + add evaporative explosion power + gravitational acceleration in the vacuum, accelerate vertically downward, divide and clamp Various sets of power generation methods using multiple opposing long blade moving wheel water turbines and opposing straight all blade moving wheel elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple set length lenses (2d) with attached fixtures (80B). Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add up vertically downward and divide Multiple series long lens (2d) of tightening tool (80B) tightening is set as a set to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Add internal heat of air inside in compression heat recovery + vacuum, add vaporization power + gravity acceleration vertically downward, and aim to increase power generation by making selected long lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the selected vertical lens from existing materials (2d A variety of energy conservation cycle combined engines of power generation method which is provided with opposing series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines in multiple stages aiming to increase power generation capacity by lengthening the size of.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosion power + gravity acceleration in a vacuum add acceleration vertically downward, existing Various energy storage cycle coalescence engines of power generation method with opposing series all moving blade water turbines and opposing series all moving blade elastic cars gas turbines installed in multiple stages aiming to increase power generation by making long lenses (2d) selected from materials.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to select from existing materials Various energy conservation cycle combined engines of power generation method which has opposing series all moving blade water turbine and opposing series all moving blade elastic wheel gas turbine installed in multiple stages aiming at increasing power generation by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward acceleration from existing materials Various energy preservation cycle combined engines of the power generation method which installed opposing multistage moving blade water turbine and opposing series full moving blade bounty gas turbine in multiple stages aiming to increase power generation by making long lens (2d) selected.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravitational acceleration vertically downward and accelerate sunlight to the existing lens cross section with selected cross section lens (2d) water (52b 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate the cross section lens from the existing lens cross section Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring car water turbine and the opposed series all moving wing bounty gas turbine in multiple stages aiming at the sunlight (water) 52b pipe in 2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosion power + gravity acceleration in a vacuum add acceleration vertically downward, existing From the lens section to the solar light in the water (52b) pipe with a cross-section length lens (2d) aiming to increase the amount of power generation An electric power generation method in which opposing series full bucket spring wheel water turbine and counter series wing moving wheel gas turbine are provided in multiple stages The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward, from the existing lens cross section Various energy of the power generation method that multistage opposed blade all-wheels wheel water turbines and counter-series all bladed wheel elastic wheels gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount to sunlight by water (52b) pipe with selected cross-section length lens (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in a vacuum add acceleration vertically downward, existing lens cross section Various types of power generation methods in which facing series all moving blade spring wheel water turbine and facing series all moving blade spring wheel gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount to the water (52b) tube with selected cross section lens (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is accelerated vertically downward, the long lens (2d) of the heat insulation is perpendicular to the sun at the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward, length of heat insulation in the part close to vacuum Various energy storage cycle coalescing engines of power generation method with opposing series all moving blades water turbine and opposing series all moving blades gas turbine arranged in multiple stages to aim at increasing power generation by maintaining lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in a vacuum add acceleration vertically downward, vacuum Power generation with multistage opposed all-in-line rotor ball-spring water turbines and opposite-series all-in-spin rotor ball-wheeled gas turbines, aiming to increase power generation by maintaining adiabatic long lens (2d) and solar light at right angle How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in a vertical direction accelerated vertically downward and brought close to vacuum Various kinds of power generation methods in which opposing series all moving blade springing car water turbine and opposing series all moving wing elastic car gas turbine are provided in multiple stages aiming at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle in the part Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward and approach vacuum Counterpart in-line all-rotor wing-impeller car water turbine · Opposite-in-line all-rotor vane-impeller car gas turbine is installed in multiple stages to increase power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically in a vacuum to accelerate the internal air vertically downward to achieve the same water volume maximum power generation Opposed series All moving blades Bumping wheel Water turbine · Opposed series Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward to aim at same water volume maximum power generation opposed series Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to the same Various energy preservation cycle combined engines of the power generation method which set the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the maximum amount of water generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward, same water amount maximum power generation Various energy preservation cycle combined engines of power generation method which installed opposing multi-stage all moving wheel water turbine and opposite multi-stage moving multi-wheel gas turbine in multiple stages aiming at quantity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, same amount of water maximum Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving wing spring wheel gas turbine in multiple stages aiming at the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + Add evaporative explosion power + Gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the width of the split clamp (80B) tightening long lens (2d) Various energy preservation cycle combined engines of the power generation method which provided opposite series full moving blade water turbine and opposite series full moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, divide and clamp multiple fasteners (80B) lens (2d) Various energy conservation cycle combined engines of the power generation method which set up in a set and aim at increase of the generation of electricity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerated downward from the existing material to increase power generation by making the selected manufacturing long lens (2d) long A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosive power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) 52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in the vacuum vertically accelerated downwards, a long lens (2d) and solar light with thermal insulation in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade spring wheel water turbine and opposite series all moving wing spring wheel gas turbine in multiple stages maintained at near right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the width of the long lens (2d) tightening the split clamp (80B) by accelerating vertically downwards by adding the vaporization explosion power + gravitational acceleration in a + sun light heater (2) + vacuum etc. Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Set the multi-long lens (2d) of the clamp (80B) clamp by dividing vertically etc by adding the vaporization explosion power + gravitational acceleration in the vacuum + solar light heater (2) + vacuum vertically downward The various energy preservation cycle combined engines of the power generation method which provided opposite series full moving blade water turbine and opposite series full moving blade elastic wheel gas turbine in multiple stages to aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Evaporative explosion power + addition of gravity acceleration in a vacuum + solar light heater (2) + vacuum, etc. Accelerate vertically downward to increase power generation by aiming to increase power generation by selecting a long lens (2d) from existing materials Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add solar light (2) + evaporative explosion power + gravitational acceleration in a vacuum, etc. Add vertical rays vertically downward, and select water from the existing lens cross section (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Evaporative explosion power + gravity acceleration is added vertically downward in a vacuum + solar light (2) + vacuum, etc. in the vacuum and so on, the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy preservation cycle combined engines of the power generation method which set up opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages to maintain and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the width of the split clamp (80B) tightening long lens (2d) Various energy preservation cycle combined engines of the power generation method which provided opposite series full moving blade water turbine and opposite series full moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, divide and clamp multiple fasteners (80B) lens (2d) Various energy conservation cycle combined engines of the power generation method which set up in a set and aim at increase of the generation of electricity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerated downward from the existing material to increase power generation by making the selected manufacturing long lens (2d) long A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosive power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) 52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in the vacuum vertically accelerated downwards, a long lens (2d) and solar light with thermal insulation in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade spring wheel water turbine and opposite series all moving wing spring wheel gas turbine in multiple stages maintained at near right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + Add evaporative explosion power + Gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add the vaporization exploding force + gravity acceleration in a vacuum, accelerate vertically downward and increase the width of the long lens (2d) tightening the split clamp (80B) in order to increase the amount of power generation. Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide, and install multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power generation by facing series Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add the vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, and increase sunlight from the existing lens cross section to the water (52 b) tube with selected cross section lens (2 d) Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add an evaporative explosion power + gravity acceleration in a vacuum, accelerate vertically downward, maintain adiabatic long lens (2d) and sunlight at right angle in the part close to vacuum and aim at increasing power generation Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Add the vaporization explosion power + gravitational acceleration in the left and right up and down + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple clamp lenses (2d) Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add solar power (2) + vacuum Add vaporization power + gravity acceleration in the vacuum Vertically accelerate downward vertically to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add sunlight + heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add sunlight and heat (2d) + sunlight in the part close to the vacuum by accelerating the vaporization explosion power + gravitational acceleration vertically downward in + sunlight heater (2) + vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add + Evaporative Explosion Force + Gravity Acceleration in Vacuum + Solar Light Heater (2) + Vacuum Accelerate vertically downward to increase the width of the long lens (2d) clamp on the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add + Evaporative Explosion Force + Gravity Acceleration in a Vacuum + Solar Light Heater (2) + Vacuum Accelerate vertically downward and divide and set a multi-long lens (2d) with a clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine installed in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add + Evaporative Explosion Force + Gravity Acceleration in Vacuum + Solar Light Heater (2) + Vacuum Accelerate vertically downward to increase power output by increasing the selected lens length (2d) from existing materials Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add solar light (2) + evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which is provided with opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Make the + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle near the part near the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Add the vaporization explosion power + gravitational acceleration in the left and right up and down + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple clamp lenses (2d) Various energy preservation cycle combined engines of the power generation method which set up with a set and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add solar power (2) + vacuum Add vaporization power + gravity acceleration in the vacuum Vertically accelerate downward vertically to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add sunlight + heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b 3) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add sunlight and heat (2d) + sunlight in the part close to the vacuum by accelerating the vaporization explosion power + gravitational acceleration vertically downward in + sunlight heater (2) + vacuum Various energy conservation cycle combined engines of the power generation method which installed opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages maintained in the vicinity and aiming at power generation capacity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + Add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + Add evaporative explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Opposite series all moving blades aiming to increase power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically increasing the vaporization explosion power + gravity acceleration downward in + vacuum. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward, divide and install multiple long lenses (2d) of tightening tool (80B) tightening to aim at increasing power generation Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + In vacuum, add evaporative explosion power + add gravity acceleration vertically downward to accelerate the power generation by increasing the amount of power generation by selecting a long lens (2d) from existing materials Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + In vacuum, add evaporative detonation power + acceleration of gravity vertically downward and aim for increasing the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by the selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increasing power generation Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming to increase the width of (2d) to increase the power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split and clamp (80B) clamp Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages with multiple long lenses (2d) set as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left upside down + solar light heater (2) internal heat air compression heat recovery + vaporization explosive force + add gravitational acceleration vertically accelerated downward from existing materials selected lens long lens (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select cross section lens from existing lens cross section (2d) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are installed in multiple stages aiming to increase concentrated power generation amount of sunlight to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the left and right up and down + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated down, the part near the vacuum heat insulation long lens (2d A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade flywheels gas turbines are provided in multiple stages to aim at increasing power generation by maintaining the sunlight at near right angles and aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion force + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages aiming at increase of the width of the power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward divided into multiple clamps (80B) tightening lens (2d) Set as a set to increase power generation A variety of energy storage cycle coalescence engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving systems gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward from existing materials selected long lens (2d) long power generation Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select sunlight from the existing lens cross section with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed opposing multi-stage all-impeller impeller water turbine and anti-parallel multi-stage rotary impeller gas turbine in multiple stages to increase concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion force + add gravity acceleration in the vacuum vertically accelerated downwards to a vacuum near the adiabatic long lens (2d) and the sun Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages to maintain the light near the right angle to increase the power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming to increase the width of (2d) to increase the power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split and clamp (80B) clamp Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages with multiple long lenses (2d) set as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left upside down + solar light heater (2) internal heat air compression heat recovery + vaporization explosive force + add gravitational acceleration vertically accelerated downward from existing materials selected lens long lens (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select cross section lens from existing lens cross section (2d) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are installed in multiple stages aiming to increase concentrated power generation amount of sunlight to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the left and right up and down + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated down, the part near the vacuum heat insulation long lens (2d A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade flywheels gas turbines are provided in multiple stages to aim at increasing power generation by maintaining the sunlight at near right angles and aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + evaporation in the vacuum + acceleration of gravity acceleration is added vertically downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + acceleration of gravity is added vertically downward to split, split and clamp (80B) clamp multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine installed in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Internal heat air compression heat recovery + vaporization evaporative explosion force + gravitational acceleration added vertically downward accelerated from existing materials selected production long lens (2d) aiming to increase power output Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravitational acceleration is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section long lens (2 d) Various energy preservation cycle combined engines of the power generation method which is provided with opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravity acceleration is added vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increasing the power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + vaporization evaporative force + gravitational acceleration added vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation A variety of energy conservation cycle combined engines with power generation method that targets opposing series all moving blade spring car water turbine and opposed series all moving blade bumping car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + vaporization evaporative force + additional gravity acceleration is accelerated vertically downward, divided into multiple fasteners (80B) tightening by providing multiple length lenses (2d) as a set to generate electricity Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air + addition of vaporization and explosion power in vacuum + acceleration of gravitational acceleration vertically downward to select power from existing materials Long objective lens (2d) aiming to increase power output Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + evaporative explosion power + additional gravitational acceleration accelerated vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d) The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air + addition of vaporization and explosion power in vacuum and acceleration of gravity acceleration vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add vaporization explosion force + Gravity acceleration in vacuum Accelerate vertically downward and divide clamp Tools (80B) To increase power generation by increasing the width of the long lens (2d) tightened Various energy of power generation method in which opposing series all moving blades water spring and opposite series all moving blades gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat (28a) inside the heat pump (1G) Compressive heat recovery + Evaporative explosive power + Gravity acceleration is added vertically downward to accelerate split and split Multiple series long lens (2d) of tightening tool (80B) tightening is set as a set to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + Solar heater (2) Internal heat (28a) with heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravity acceleration added in vacuum vertically accelerated downward from existing materials Various energy preservation cycle combined engines of the power generation method which installed opposing multistage moving blade water turbine and opposing series full moving blade bounty gas turbine in multiple stages aiming to increase power generation by making long lens (2d) selected.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added in vertical direction accelerated vertically downward, existing lens cross section Various types of power generation methods in which facing series all moving blade spring wheel water turbine and facing series all moving blade spring wheel gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount to the water (52b) tube with selected cross section lens (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the left and right up and down + solar light heater (2) Compress heat recovery with heat pump (1G) + internal heat (1G) + add vaporization explosion power + gravity acceleration in the vacuum Vertically accelerate downward and approach vacuum Counterpart in-line all-rotor wing-impeller car water turbine · Opposite-in-line all-rotor vane-impeller car gas turbine is installed in multiple stages to increase power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Sunlight Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive Heat Recovery + Evaporative Explosion Force + Gravity Acceleration Added in Vertical Downwards Vertically Downward, Split Fastener (80B) To increase power generation capacity by increasing the width of the tightening long lens (2d) Various energy conservation cycle combination of electric power generation method in which opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine are provided in multiple stages organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Sunlight heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and clamp (80B) Various energy conservation of the power generation method where multiple series long blade (collared wheel moving wheel water turbine) and opposite series all rotating blade elastic wheel gas turbine are installed in multiple stages aiming at increase of power generation by providing multiple tightening lenses (2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration accelerated vertically downward, select manufacturing length from existing materials Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by making lens (2d) long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in a vacuum to accelerate vertically downward, select cross section from existing lens cross section Various energy conservation cycles of the power generation method that multistage opposing turbine blade water turbines and opposed turbine blade gas turbines are installed in multiple stages aiming at increasing the concentrated power generation amount of sunlight to water (52b) tube with long lens (2d) Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + solar light (2) internal heat air (28a) with heat pump (1 G) compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward, in the part close to vacuum Various energy conservation of power generation method with multistage opposed gas turbines with opposed series all moving blades water turbine and opposed series all moving blades gas turbine to maintain power generation amount by maintaining adiabatic long lens (2d) and sunlight at right angle near Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add vaporization explosion force + Gravity acceleration in vacuum Accelerate vertically downward and divide clamp Tools (80B) To increase power generation by increasing the width of the long lens (2d) tightened Various energy of power generation method in which opposing series all moving blades water spring and opposite series all moving blades gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat (28a) inside the heat pump (1G) Compressive heat recovery + Evaporative explosive power + Gravity acceleration is added vertically downward to accelerate split and split Multiple series long lens (2d) of tightening tool (80B) tightening is set as a set to increase power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + Solar heater (2) Internal heat (28a) with heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravity acceleration added in vacuum vertically accelerated downward from existing materials Various energy preservation cycle combined engines of the power generation method which installed opposing multistage moving blade water turbine and opposing series full moving blade bounty gas turbine in multiple stages aiming to increase power generation by making long lens (2d) selected.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added in vertical direction accelerated vertically downward, existing lens cross section Various types of power generation methods in which facing series all moving blade spring wheel water turbine and facing series all moving blade spring wheel gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount to the water (52b) tube with selected cross section lens (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the left and right up and down + solar light heater (2) Compress heat recovery with heat pump (1G) + internal heat (1G) + add vaporization explosion power + gravity acceleration in the vacuum Vertically accelerate downward and approach vacuum Counterpart in-line all-rotor wing-impeller car water turbine · Opposite-in-line all-rotor vane-impeller car gas turbine is installed in multiple stages to increase power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the split clamp (80B) clamp long lens Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming to increase the width of (2d) to increase the power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + add vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, split and clamp (80B) clamp Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages with multiple long lenses (2d) set as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to make selected long lens (2d) long from existing materials The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the power generation amount increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction accelerated vertically downward and select section length lens (2d) from the existing lens section Various energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are installed in multiple stages aiming to increase concentrated power generation amount of sunlight to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Heat recovery of the internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and the adiabatic long lens (2d) A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade flywheels gas turbines are provided in multiple stages to aim at increasing power generation by maintaining the sunlight at near right angles and aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power in vacuum + acceleration of gravity is added vertically downward to accelerate the split clamp (80B) of the long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount by increasing the width.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat (28a) compressed heat recovery with heat pump (1G) + vaporization and explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to divide and clamp multiple clamp lenses (80B) Various energy preservation cycle combined engines of the power generation method which set up 2 d) as a set and aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in vacuum vertically accelerated downward from existing materials to increase power generation by making selected lens (2d) longer The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat the internal air (28a) with a heat pump (1G) + add evaporative explosion power + gravity acceleration in a vacuum + accelerate vertically downward to make the water of sunlight with a cross section lens (2d) from the existing lens cross section (52b) Various energy storage cycle coalescing engines of a power generation method in which opposed series all moving blades water turbines and opposed series moving blades gas turbines are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization explosion power + additional gravity acceleration in a vacuum vertically accelerated downward to a vacuum, close to the vacuum a long lens (2d) and sunlight Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation near the right angle.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To increase the width of the long lens (2d) by tightening the split fasteners (80B) to increase power generation by opposing series all moving blade springing car water turbine / opposing series all moving wing flexible mill gas turbine multistage Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To increase power generation by providing a set of multiple long lenses (2d) by dividing and tightening the clamp (80B) in order to increase power generation. Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Various types of energy from the power generation method in which opposed series all moving blade spring wheel water turbines and opposed series all moving wing elastic wheel gas turbines are provided in multiple stages to accelerate power generation and increase production capacity by selecting long lenses (2d) selected from existing materials Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To accelerate the sun to the water (52b) tube with the selected lens section cross section lens (2d) from the existing lens cross section aiming at increasing the amount of power generation Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To achieve an increase in power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating to an area close to vacuum and aiming to increase power generation Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward To increase power generation by increasing the width of the split fastener (80B) and the long lens (2d) tightened, multistage opposed rotary bladed wheel water turbines and opposed series rotary bladed wheeled roller gas turbines are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward Multi-long lenses (2d) for tightening and securing fasteners (80B) together as a set to aim at increasing power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward The energy saving cycle combination of the power generation method in which opposing series full moving blade water spring and opposing series full moving blade elastic wheel gas turbine are provided in multiple stages aiming to increase the power generation amount by selecting long lenses (2d) selected from existing materials organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward In order to increase the amount of concentrated power generation with the sunlight (water tube 52b) by selecting a lens lens cross section from the existing lens cross section Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight in the vicinity of a right angle at the part close to the vacuum and aiming at the increase of power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To increase the width of the long lens (2d) by tightening the split fasteners (80B) to increase power generation by opposing series all moving blade springing car water turbine / opposing series all moving wing flexible mill gas turbine multistage Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To increase power generation by providing a set of multiple long lenses (2d) by dividing and tightening the clamp (80B) in order to increase power generation. Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Various types of energy from the power generation method in which opposed series all moving blade spring wheel water turbines and opposed series all moving wing elastic wheel gas turbines are provided in multiple stages to accelerate power generation and increase production capacity by selecting long lenses (2d) selected from existing materials Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To accelerate the sun to the water (52b) tube with the selected lens section cross section lens (2d) from the existing lens cross section aiming at increasing the amount of power generation Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To achieve an increase in power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating to an area close to vacuum and aiming to increase power generation Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, split fastener (80B) Various energy conservation of the power generation method which installed opposing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of tightening long lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten Various sets of power generation methods using multiple opposing long blade moving wheel water turbines and opposing straight all blade moving wheel elastic wheel gas turbines installed in multiple stages to aim at increasing power generation by providing multiple set length lenses (2d) with attached fixtures (80B). Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy conservation cycle combined engines of power generation method which has opposing series all moving blade water turbine and opposing series all moving blade elastic wheel gas turbine installed in multiple stages aiming at increasing power generation by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward from the existing lens cross section Various energy of the power generation method that multistage opposed blade all-wheels wheel water turbines and counter-series all bladed wheel elastic wheels gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount to sunlight by water (52b) pipe with selected cross-section length lens (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + evaporative explosive force + additional gravity acceleration in the vacuum and accelerate vertically downward to bring it close to the vacuum Various kinds of power generation methods in which opposing series all moving blade springing car water turbine and opposing series all moving wing elastic car gas turbine are provided in multiple stages aiming at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle in the part Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to clamp the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of attached long lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + gravitational acceleration in the vacuum + add vertical acceleration vertically and divide to divide the fastener (80B Aim to increase power generation by providing multiple tightening lenses (2d) as a set to achieve different series of energy saving cycles combining power generation methods with multistage opposed bladed wheel water turbines and opposed series whole bladed wheeled gas turbines installed in multiple stages organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to make long lens selected from existing materials Various energy preservation cycle combined engines of the power generation method which installed opposite opposed series all moving blade water turbine water turbine and opposite series all moved blade elastic wheel gas turbine in multiple stages aiming at power generation increase by lengthening 2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to select the selected lens from the existing lens cross section Various energy storage cycle coalescing engines of the power generation method provided with multistage opposing turbine blade water turbines and opposed tandem blade turbines gas turbines aiming to increase the concentrated power generation amount of sunlight to water (52b) pipe in (2d) .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum vertically and accelerate vertically downward to adiabatic areas near the vacuum Various energy conservation cycle combination of electric power generation method which installed opposing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages to maintain power generation amount by maintaining long lens (2d) and sunlight at right angle vicinity organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward To increase power generation by increasing the width of the split fastener (80B) and the long lens (2d) tightened, multistage opposed rotary bladed wheel water turbines and opposed series rotary bladed wheeled roller gas turbines are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Multi-long lenses (2d) for tightening and securing fasteners (80B) together as a set to aim at increasing power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward The energy saving cycle combination of the power generation method in which opposing series full moving blade water spring and opposing series full moving blade elastic wheel gas turbine are provided in multiple stages aiming to increase the power generation amount by selecting long lenses (2d) selected from existing materials organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase the amount of concentrated power generation with the sunlight (water tube 52b) by selecting a lens lens cross section from the existing lens cross section Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight in the vicinity of a right angle at the part close to the vacuum and aiming at the increase of power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to divide Aiming at increasing power generation by increasing the width of the tightening lens (80B) tightening long lens (2d) A power generation method with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines provided in multiple stages Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to divide Power generation system with multiple series of moving blade impacting wheel water turbines and opposed series moving blade impacting wheel gas turbines installed in multiple stages. How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the existing Various energy storage cycle coalescence engines of power generation method with opposing series all moving blade water turbines and opposing series all moving blade elastic cars gas turbines installed in multiple stages aiming to increase power generation by making long lenses (2d) selected from materials.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the existing From the lens section to the solar light in the water (52b) pipe with a cross-section length lens (2d) aiming to increase the amount of power generation An electric power generation method in which opposing series full bucket spring wheel water turbine and counter series wing moving wheel gas turbine are provided in multiple stages The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the vacuum Power generation with multistage opposed all-in-line rotor ball-spring water turbines and opposite-series all-in-spin rotor ball-wheeled gas turbines, aiming to increase power generation by maintaining adiabatic long lens (2d) and solar light at right angle How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward To increase power generation by increasing the width of the split fastener (80B) and the long lens (2d) tightened, multistage opposed rotary bladed wheel water turbines and opposed series rotary bladed wheeled roller gas turbines are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Multi-long lenses (2d) for tightening and securing fasteners (80B) together as a set to aim at increasing power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward The energy saving cycle combination of the power generation method in which opposing series full moving blade water spring and opposing series full moving blade elastic wheel gas turbine are provided in multiple stages aiming to increase the power generation amount by selecting long lenses (2d) selected from existing materials organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase the amount of concentrated power generation with the sunlight (water tube 52b) by selecting a lens lens cross section from the existing lens cross section Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight in the vicinity of a right angle at the part close to the vacuum and aiming at the increase of power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) + add vaporizing power + gravitational acceleration in vacuum and accelerate vertically downward, divided fastener (80B) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are provided in multiple stages to increase the width of tightening long lens (2d) to increase power generation .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air heat (28b) Add the vaporization explosion power + gravity acceleration in the vacuum + add vacuum acceleration vertically downward, divide and clamp 80B) Various energy conservation cycles of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages by aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) internal air heat compressed air heat (28b) heat the water (52b) in the vacuum + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, to produce a long lens selected from existing materials Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the compressed air heat (28b) by the amount of heat of the inside air Heat the water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to select the selected cross-section length from the existing lens Various energy preservation cycle combination of the electric power generation method which installed the opposing in-line all moving blade springing car water turbine and the opposing in-line all moving wing elastic car gas turbine in multiple stages aiming at the sunlight (water tube 52b) tube with sunlight by lens (2d) organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to adiabatic part near the vacuum Various energy conservation cycles of the power generation method that multistage opposing turbine blade water turbines and opposed tandem blade turbines gas turbines are provided in order to increase power generation by maintaining long lens (2d) and sunlight at right angle near to each other Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to lengthen the split clamp (80B) clamp Various energy conservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving impeller gas turbine in multiple stages aiming at increasing power generation by increasing the width of lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and clamp the fastener (80B) The various energy storage cycle combined engines of the power generation method which installed multiple long lenses (2d) of the set as a set and aimed at the increase of the power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make the selected production long lens (2d) from existing materials Various energy preservation cycle combined engines of the power generation method which set the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the increase of the power generation amount as long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to select cross section lens from existing lens cross section (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade elastic vehicle gas turbine in multiple stages aiming at the increase of the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravity acceleration in the vacuum + accelerate vertically downward, and adiabatic long lens in the part close to the vacuum ( 2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle with sunlight.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by increasing the width of the split fastener (80B) and the long lens (2d) tightened, multistage opposed bladed wheeled water turbines and opposed seriesed moving bladed wheeled gas turbines are provided in multiple stages. Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Multi-long lenses (2d) for tightening and securing fasteners (80B) together as a set to aim at increasing power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Various energy preservation cycles of the power generation method in which opposed series all moving blade water turbines and opposed series all moving blade elastic vehicle gas turbines are provided in multiple stages to increase power generation by selecting long lenses (2d) selected from existing materials Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase the amount of concentrated power generation by increasing the amount of power generated by the existing lens cross-section with the selected cross-section long lens (2d), increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum, facing in-line all moving blade spring car water turbine · facing in-line all moving blade spring car gas turbine Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Power generation method with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines installed in multiple stages to increase power generation by increasing the width of the split fastener (80B) fixed long lens (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Opposite in-line all-rotor-impeller wheel water turbine · Opposite-in-line all-rotor vane-impact wheel gas turbine is provided in multiple stages by aiming at increasing power generation by providing multiple long lenses (2d) of divided fasteners (80B) and tightening. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Various energy storage cycle coalescence engines of the power generation method which installed facing series whole bucket spring wheel water turbine and counter series wing moving wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) selected from existing materials.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, From the existing lens section to select solar light with water (52b) pipe with selected cross-section length lens (2d) Power generation with facing in-line all moving blade springing car water turbine · facing in-line all moving wing springing car gas turbine installed in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Opposite in-line all-rotor-bottled-wheel water turbine · Opposite-series-all-rotor alligator wing-impacted car gas turbine is installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near the vacuum. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by increasing the width of the split fastener (80B) and the long lens (2d) tightened, multistage opposed bladed wheeled water turbines and opposed seriesed moving bladed wheeled gas turbines are provided in multiple stages. Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Multi-long lenses (2d) for tightening and securing fasteners (80B) together as a set to aim at increasing power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Various energy preservation cycles of the power generation method in which opposed series all moving blade water turbines and opposed series all moving blade elastic vehicle gas turbines are provided in multiple stages to increase power generation by selecting long lenses (2d) selected from existing materials Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase the amount of concentrated power generation by increasing the amount of power generated by the existing lens cross-section with the selected cross-section long lens (2d), increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum, facing in-line all moving blade spring car water turbine · facing in-line all moving blade spring car gas turbine Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward, split fastener (80B To increase power generation capacity by increasing the width of the tightening long lens (2d) Various energy conservation cycle combination of electric power generation method in which opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine are provided in multiple stages organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp (80B) Various energy conservation of the power generation method where multiple series long blade (collared wheel moving wheel water turbine) and opposite series all rotating blade elastic wheel gas turbine are installed in multiple stages aiming at increase of power generation by providing multiple tightening lenses (2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward and select manufacturing length from existing materials Various energy preservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving blade elastic car gas turbine in multiple stages aiming at power generation increase by making lens (2d) long.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + Fuel injection and burn it + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward to select cross section from existing lens cross section Various energy conservation cycles of the power generation method that multistage opposing turbine blade water turbines and opposed turbine blade gas turbines are installed in multiple stages aiming at increasing the concentrated power generation amount of sunlight to water (52b) tube with long lens (2d) Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward to the part near the vacuum Various energy conservation of power generation method with multistage opposed gas turbines with opposed series all moving blades water turbine and opposed series all moving blades gas turbine to maintain power generation amount by maintaining adiabatic long lens (2d) and sunlight at right angle near Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward to clamp the split fastener (80B) Various energy conservation cycle combined engines of power generation method in which opposing series all moving blade water turbine and opposing series all moving blade gas turbine are provided in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward to divide and clamp the fastener (80B) Various energy storage cycle coalescing engines of the power generation method which is provided with multi-long lenses (2d) attached as a set to increase power generation by facing opposing series all moving blades water turbines and opposing series all moving impellers gas turbines in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens made from existing material, long lens (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing buttoned wheel gas turbine in multiple stages aiming at the increase of the power generation amount by making long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel-injection-combustion + add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select a lens from the existing lens cross-section A variety of energy storage cycle coalescence engines of the power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming to increase the concentrated power generation amount of sunlight to water (52b) pipes.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerating downward, and adiabatic long lens near the vacuum (2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposed series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining sunlight at near right angles and aiming at increasing power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosion power maximum with the solar heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating vertically downward, the length of the split clamp (80B) clamp Various energy conservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving impeller gas turbine in multiple stages aiming at increasing power generation by increasing the width of lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosion power with the sun light heater (2) + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, divide and tighten the clamp (80B) The various energy storage cycle combined engines of the power generation method which installed multiple long lenses (2d) of the set as a set and aimed at the increase of the power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the left and right up and down + increase the vaporization explosive power with the sun light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating vertically downward, select manufacturing long lens (2d) from existing materials Various energy preservation cycle combined engines of the power generation method which set the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the increase of the power generation amount as long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosive power maximum with the solar light heater (2) + add the vaporization explosive power + gravitational acceleration in a vacuum, accelerate vertically downward, select cross section lens from the existing lens cross section (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade elastic vehicle gas turbine in multiple stages aiming at the increase of the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explode force with the sun light heater (2) + add evaporative explode force + gravitational acceleration in vacuum add vertical acceleration vertically and adiabatic long lens in the part close to vacuum 2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle with sunlight.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum vertically accelerating downward and split clamp (80B) tightening long lens (2d A variety of energy conservation cycle combined engines of power generation method in which opposing series all moving blades water turbine and opposite series moving blades gas turbine are provided in multiple stages to increase the width of power generation to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization explosion power maximum with + solar light heater (2) + add the vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, split and clamp multiple lengths of clamp (80B) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are provided in multiple stages aiming to increase power generation by providing lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate vertically downward and select power from existing materials by using a long lens (2d) for power generation Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum vertically accelerate downward vertically and select sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blades water turbine and opposing series all moving systems gas turbine are provided in multiple stages to increase concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Increase the vaporization and explosion power at maximum with the solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate vertically downward, and adiabatic long lens (2d) with the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which set up the opposing series all moving blade water turbine and the opposing series all moving blade elastic wheel gas turbine in multiple stages to maintain the sunlight near the right angle and aim at the increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosion power maximum with the solar heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating vertically downward, the length of the split clamp (80B) clamp Various energy conservation cycle combined engines of the power generation method which installed opposite series all moving blade water turbine and opposite series all moving impeller gas turbine in multiple stages aiming at increasing power generation by increasing the width of lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosion power with the sun light heater (2) + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, divide and tighten the clamp (80B) The various energy storage cycle combined engines of the power generation method which installed multiple long lenses (2d) of the set as a set and aimed at the increase of the power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the left and right up and down + increase the vaporization explosive power with the sun light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating vertically downward, select manufacturing long lens (2d) from existing materials Various energy preservation cycle combined engines of the power generation method which set the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at the increase of the power generation amount as long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosive power maximum with the solar light heater (2) + add the vaporization explosive power + gravitational acceleration in a vacuum, accelerate vertically downward, select cross section lens from the existing lens cross section (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade elastic vehicle gas turbine in multiple stages aiming at the increase of the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explode force with the sun light heater (2) + add evaporative explode force + gravitational acceleration in vacuum add vertical acceleration vertically and adiabatic long lens in the part close to vacuum 2d) Various energy storage cycle coalescing engines of power generation method in which opposing series all moving blade water turbines and opposing series all moving blade elastic vehicle gas turbines are provided in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle with sunlight.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the container (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to increase the width of the split lens (80B) clamping long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series full moving blade water turbine and the opposing series full moving blade gas turbine in multiple stages aiming at the increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to divide and set the multiple length lens (2d) of the clamp (80B) clamp The various energy preservation cycle combined engines of the power generation method which provided opposite series full moving blade water turbine and opposite series full moving blade elastic wheel gas turbine in multiple stages to aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravity acceleration is added vertically in vacuum and accelerated vertically downward to make the selected lens (2d) longer from the existing material, aiming at increasing power generation Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is increased to the maximum + the evaporation explosion power + gravitational acceleration is added vertically downward in the vacuum chamber (2) and the sunlight is accelerated by the vertical cross section from the existing lens cross section with the selected cross section lens (2d) The various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade water turbine and the opposing series all moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the vessel (2) + the vaporization explosion power + gravity acceleration is added vertically downward in vacuum and accelerated vertically downward, and the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy preservation cycle combined engines of the power generation method which set up opposing series full moving blade water turbine and opposing series full moving blade gas turbine in multiple stages to maintain and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Increase the power generation amount by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating the vaporization explosion power + gravitational acceleration vertically downward in the maximum + vaporization in the vacuum The various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposite series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative explosion power maximum increase + Evaporative explosion power + gravitational acceleration is added vertically in a vacuum to accelerate vertically divided, divided into multiple fasteners (80B) tightening by providing multiple lenses (2d) as a set to generate electricity Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Countermeasure in-line All-Rolls-Bumping Wheel aiming at increasing power output by lengthening large lenses (2d) selected from existing materials by accelerating vaporization explosion power + gravitational acceleration in the vacuum + maximum increase + vaporization explosion power + gravity acceleration in vacuum Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative explosion power maximum increase + Evaporative explosion power + gravitational acceleration added vertically in vacuum accelerated vertically downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy conservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposed series all moving wing spring wheel gas turbine in multiple stages aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Upward in Vacuum Accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle near the area near the vacuum to generate electricity Various energy preservation cycle combined engines of power generation method which installed opposite series full moving blade water turbine and opposite series full moving blade gas turbine in multiple stages aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic long-length lens (2d) width increase to collect sunlight + vaporization evaporative force + gravity acceleration in vacuum add vertical downward acceleration, split clamp (80B 4) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the width of the fixed long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydropower Solar power Photovoltaic long lens (2d) to increase the width of the solar light collecting method + evaporation in the vacuum + force of gravity + acceleration of gravity add vertically downward, split and clamp (80B) A set of tightening multiple lenses (2d) is provided as a set to increase power generation Various energy storage cycle combination of power generation method in which series full bucket spring wheel water turbine and series full bucket wing wheel vehicle gas turbine are provided in multiple stages organ.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation long lens (2d) width increase and collect solar light + add evaporative explosion power + gravity acceleration in vacuum vertically accelerated downward, select manufacturing length from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making lens (2d) long.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro aerodynamic power Solar power generating long lens (2d) to increase the width of solar light collecting method + add evaporative explosion power + gravitational acceleration in vacuum vertically accelerated downward, from the existing lens cross section Various energy conservation cycle coalescing engines of the power generation method equipped with in-line all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming to increase the concentrated power generation amount to sunlight by water (52b) tube with long lens (2d) .
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro aerodynamic power Solar power method of increasing the width of the long lens (2d) to collect sunlight + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, in the part close to the vacuum Various energy conservation cycle combination of electric power generation method that cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbines in multiple stages aiming at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near organ.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Aiming at increasing power generation by increasing the width of the split fastener (80B) fastening long lens (2d) Various kinds of power generation methods with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, A power generation method in which a series of all moving blade springing wheel water turbine and a series all moving blade springing wheel gas turbine are provided in multiple stages in order to increase power generation by providing a set of multiple long lenses (2d) that are divided and tightened (80B). The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) selected from existing materials long.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, From the existing lens section to select solar light with water (52b) pipe with selected cross-section length lens (2d) Aiming at increase of concentrated power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Power generation method with cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbine installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and solar light at right angle in a part close to vacuum The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Aiming at increasing power generation by increasing the width of the split fastener (80B) fastening long lens (2d) Various kinds of power generation methods with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, A power generation method in which a series of all moving blade springing wheel water turbine and a series all moving blade springing wheel gas turbine are provided in multiple stages in order to increase power generation by providing a set of multiple long lenses (2d) that are divided and tightened (80B). The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) selected from existing materials long.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, From the existing lens section to select solar light with water (52b) pipe with selected cross-section length lens (2d) Aiming at increase of concentrated power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Power generation method with cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbine installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and solar light at right angle in a part close to vacuum The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Increase in gravitational acceleration by increasing vertically downward to increase the width of the split lens (80B) tightening long lens (2d) to increase power output Various energy storage cycle combined engine of the power generation method which provided gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward and divided to provide a set of multiple long lenses (2d) by tightening the clamp (80B) tightening to aim at increasing the amount of power generation. Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward, and existing materials are made from selected materials Long lenses (2d) to increase power generation Power generation with a series of all moving blades spring water turbine · Series all moving blades spring wheel gas turbine provided in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Add Gravity Acceleration Accelerate vertically downward and aim to increase the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Additional gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increased power generation by series all moving blade springing wheel water turbine · series total movement Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum In-line total blade springing water turbine aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration by adding vertically downward downward・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) Increase the power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) by accelerating the compression heat recovery + evaporation vaporization power + gravitational acceleration vertically downward in (1 G) + vacuum Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages to increase power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Add in the vaporization and explosion power + acceleration of gravity vertically downward and divide it to provide a set of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increase of power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward to divide, and provide multiple long lenses (2d) of clamp (80B) clamp as a set to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy preservation cycle combined engines of the power generation method which provided in series 2 d) as a set and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum In-line all-rotor blade-impeller water turbine · In-line all-impact rotor blade-impeller car gas turbine aiming at increasing power generation by adding vertically downward by vaporization explosion power + gravitational acceleration vertically to make selected long lens (2d) from existing materials longer Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In 1G, compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from existing materials to increase power output by making long lens selected from long materials (2d) Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select power from the existing material series to aim at increased power generation with the long lens (2d) Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Evaporative explosion power + acceleration of gravity is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming to increase the amount of concentrated power generation Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section long lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring car water turbine and a series all moving wing spring car gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Add in the vaporization explosion power + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increase of power generation by series all moving blade bounce wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in vacuum, vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at power generation increase maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Evaporative explosion power + gravity acceleration is added in the vertical direction to accelerate vertically downward to achieve the same water volume maximum power generation Various energy conservation of the power generation method provided with a series of all moving blade spring car water turbine · series all moving wing gas turbine gas turbine in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, vertically accelerating vertically downward to achieve the same water volume maximum power generation series full moving blade bouncing car water turbine · series full moving blade bouncing car gas turbine multistage Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to achieve the same water volume maximum power generation series All moving blades Bumping wheel water turbine · Series Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with air heat (28b) + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to achieve the same amount of water and maximum power generation Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b B) heat the water (52b) + fuel injection and burn it + add vaporization and explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to achieve the same water volume and maximum power output Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, Aiming at increasing power generation by increasing the width of the split fastener (80B) fastening long lens (2d) Various kinds of power generation methods with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, A power generation method in which a series of all moving blade springing wheel water turbine and a series all moving blade springing wheel gas turbine are provided in multiple stages in order to increase power generation by providing a set of multiple long lenses (2d) that are divided and tightened (80B). The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) selected from existing materials long.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, From the existing lens section to select solar light with water (52b) pipe with selected cross-section length lens (2d) Aiming at increase of concentrated power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cold Heat (52e) Production Method + Lifting Pump (1H) Increases the Head + Increases Vaporization Explosion + Gravity Acceleration in Vacuum Vertically Downward, Power generation method with cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbine installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and solar light at right angle in a part close to vacuum The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Series vertical bladed wheel water turbine · Series all bladed wheel bouncer gas turbine to increase power generation by increasing the width of the long lens (2d) by tightening the split clamp (80B) vertically downward. Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Additional vertical acceleration down vertically, split and install multiple clamp lenses (2d) with clamp (80B) clamps in order to increase power generation in series All moving blade springing wheel Water turbine · Series all moving wing springing wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum In order to increase power output by accelerating vertically downward and increasing the production capacity by selecting long lenses (2d) from existing materials, a series of all moving blade springing wheel water turbines and a series all moving wing springing wheel gas turbine are provided in multiple stages Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Additional vertical acceleration accelerates vertically downward, and increases the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Thermal insulation material (2c) Half cylinder outer case (77B) Evaporative explosion power + Gravity acceleration in vacuum Additional vertical acceleration accelerates downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increasing power output in series All moving blades Water rolling wheel Water turbine · Series All moving blades Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically Accelerate in the downward direction and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically Accelerating downward, install split full length lens (2d) by dividing and tightening clamp (80B) tightening to aim at increase of power generation series tandem blade moving wheel water turbine ・ series bucket moving wheel gas turbine gas turbine Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically Accelerate energy downwards, select from existing materials and increase production capacity by selecting long lens (2d) to increase power generation Various energy conservation of power generation method with multi-stage all-wheels ball-wheel water turbine / series all-wheel ball-wheels gas turbine installed in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically Accelerate downward and increase the concentration of the amount of power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross-section length lens (2d) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Water Turbine Condensation Repeatedly Used Facility Method + Joint (80A) Long Solar Heat Augmentation Suspension Bridge (2b) Add Vaporization Explosion Force + Gravity Acceleration Vertically Vertically A series of all moving blade springing car water turbine and a series all moving blade springing car gas turbine that aims to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at right angle near the vacuum by accelerating downward. Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Series vertical bladed wheel water turbine · Series all bladed wheel bouncer gas turbine to increase power generation by increasing the width of the long lens (2d) by tightening the split clamp (80B) vertically downward. Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Additional vertical acceleration down vertically, split and install multiple clamp lenses (2d) with clamp (80B) clamps in order to increase power generation in series All moving blade springing wheel Water turbine · Series all moving wing springing wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum In order to increase power output by accelerating vertically downward and increasing the production capacity by selecting long lenses (2d) from existing materials, a series of all moving blade springing wheel water turbines and a series all moving wing springing wheel gas turbine are provided in multiple stages Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Additional vertical acceleration accelerates vertically downward, and increases the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of Repeated Use of Condensed Water Full-Blade Water Turbine + Method of Fastening with Solar Power (80B) Solar Heat Augmentation Suspension Bridge (2b) Evaporative Explosion Force + Gravity Acceleration in Vacuum Additional vertical acceleration accelerates downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increasing power output in series All moving blades Water rolling wheel Water turbine · Series All moving blades Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, Aiming at increasing power generation by increasing the width of the split fastener (80B) fastening long lens (2d) Various kinds of power generation methods with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, A power generation method in which a series of all moving blade springing wheel water turbine and a series all moving blade springing wheel gas turbine are provided in multiple stages in order to increase power generation by providing a set of multiple long lenses (2d) that are divided and tightened (80B). The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) selected from existing materials long.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, From the existing lens section to select solar light with water (52b) pipe with selected cross-section length lens (2d) Aiming at increase of concentrated power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified house + Build up in evaporation + Vaporization explosion force + Gravity acceleration in a vacuum Add vertical acceleration downward, Power generation method with cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbine installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and solar light at right angle in a part close to vacuum The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Piping Equipment Method + Storage Battery Drive Various Motor Vehicles Plus + Vaporization Explosive Force + Gravity Acceleration in Vacuum Additional Vertical Downward Acceleration, Split Fastening Tool (80B) To increase power generation capacity by increasing the width of the tightening long lens (2d) Various energy conservation cycle combination of power generation method with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles Plus + Evaporative Explosive Force + Gravity Acceleration in Vacuum Accelerate vertically downward, divide and clamp A set of multiple long lenses (2d) tightened with accessories (80B) to increase power generation Various energy conservation of the power generation method with multi-stage all-wheels ball-wheel water turbine / series all-wheel ball-wheels gas turbine installed in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles Plus + Vaporization Explosive Force + Gravity Acceleration in Vacuum Accelerate vertically downward and select from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles Plus + Evaporative Explosive Force + Gravity Acceleration in Vacuum Add Vertically Downward Acceleration, from Existing Lens Cross Section Various energy preservation cycles of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) pipe with selected cross section long lens (2d) Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various automobiles to make + + evaporative explosion power + gravity acceleration added in vacuum vertically accelerated downward and approached vacuum Aiming at increasing power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle to increase power generation Various energy conservation of power generation method provided with multistage of all series blade moving wheel water turbine and series all blade moving wheel gas turbine Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum In-line total blade springing water turbine aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration by adding vertically downward downward・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Add in the vaporization and explosion power + acceleration of gravity vertically downward and divide it to provide a set of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increase of power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum In-line all-rotor blade-impeller water turbine · In-line all-impact rotor blade-impeller car gas turbine aiming at increasing power generation by adding vertically downward by vaporization explosion power + gravitational acceleration vertically to make selected long lens (2d) from existing materials longer Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Evaporative explosion power + acceleration of gravity is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming to increase the amount of concentrated power generation Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) with Half-Cylinder Outer Box (77B) + Vacuum Add in the vaporization explosion power + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increase of power generation by series all moving blade bounce wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward and increase the width of the split lens (80B) and clamp long lens (2d) to increase power output Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravity acceleration vertically downward and divide it into multiple tightening lenses (2B) with tightening tool (80B) tightening to aim at increasing power output Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials Aiming at increase of power output Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward and aim to increase the concentration of electric energy from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and sunlight at right angle in the part close to vacuum and aim at increasing power generation by series all moving blade springing wheel water turbine ・Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater In-line total blade springing water turbine aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration by adding vertically downward downward・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Add in the vaporization and explosion power + acceleration of gravity vertically downward and divide it to provide a set of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increase of power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater In-line all-rotor blade-impeller water turbine · In-line all-impact rotor blade-impeller car gas turbine aiming at increasing power generation by adding vertically downward by vaporization explosion power + gravitational acceleration vertically to make selected long lens (2d) from existing materials longer Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Evaporative explosion power + acceleration of gravity is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming to increase the amount of concentrated power generation Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Add in the vaporization explosion power + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increase of power generation by series all moving blade bounce wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Increase in width by increasing the width of the long lens (2d) by tightening the split clamp (80B) by increasing vertically downward additionally to increase the power generation capacity. Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Increase in vertical axis by additional vertical acceleration, and divide and install multiple clamp lenses (2d) by tightening the clamp (80B) to increase power output Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Acceleration of the additional vertical downwards to increase power generation capacity by selecting long lenses (2d) from existing materials to increase power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Acceleration of the additional vertical downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Solar heater (2) + Evaporative explosive force + Gravity acceleration in vacuum Additional vertical downward acceleration to keep the adiabatic long lens (2d) and solar light at right angles in the area close to vacuum and aiming to increase power generation in series All moving blades Water rolling car Water turbine · Series All moving blades Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Accelerated by increasing the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation capacity A multistage rotary blade spring wheel water turbine · A serial full rotor blade spring wheel gas turbine was installed in multiple stages Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Accelerating, dividing and installing multiple long lenses (2d) of tightening fasteners (80B) tightening as a set to increase power output Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Various energy preservation cycle combination of the power generation method which installed in series all bucket spring wheel water turbine and series all bucket wing wheel gas turbine in multiple stages aiming at power generation increase by accelerating from the existing materials and making the selected manufacturing long lens (2d) longer. organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Accelerating and setting sunlight to water (52b) pipe with existing lens cross section and selected section lens (2d) to increase concentration of electric power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Accelerate all the blades in series with all moving blade springs, water turbines, and all moving blade gas turbines with multiple blades in order to increase power generation by maintaining the adiabatic long lens (2d) and solar light at right angles near the vacuum by accelerating. Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative detonation force + add gravitational acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downward in a Vacuum to Accelerate the Split Fastener (80B) Tightening Longer Lens (2d) Width to Increase Power Generation Power by Aiming at Increasing Power Generation Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically downward in vacuum, and divided into two sets of multiple length lenses (2d) of tightening (80B) tightening to aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downwards Accelerate Vertically Downward from Existing Materials to Lengthen Large Lens (2d) to Increase Output Capacity Series All Rotor Blades Spring Water Turbine Water Turbine · All Rotor Blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward, to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight from the selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation force + add gravitational acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward and increase the width of the split lens (80B) and clamp long lens (2d) to increase power output Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Add explosion power + gravity acceleration vertically downward and divide it into multiple tightening lenses (2B) with tightening tool (80B) tightening to aim at increasing power output Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials Aiming at increase of power output Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Add explosion power + gravitational acceleration vertically downward and aim to increase the concentration of electric energy from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and sunlight at right angle in the part close to vacuum and aim at increasing power generation by series all moving blade springing wheel water turbine ・Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Increase the acceleration Acceleration vertically downward and increase the width of the long lens (2d) by tightening the split clamp (80B) to aim at increasing power output Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Acceleration Add vertical downward acceleration, divide, and provide multiple tightening lenses (2B) with tightening tool (80B) tightening to increase power generation in series All moving blades Bumping wheel Water turbine ・ Series all moving blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Acceleration power is added vertically downward to accelerate power generation from existing materials by selecting a long lens (2d) to increase power generation Power generation method with cascaded all buckets wheel water turbine / series all buckets wheeled wheel gas turbine in multiple stages The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Add acceleration Acceleration vertically downward and aim to increase the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Acceleration Additional acceleration Vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power output in series All moving blades Bumping wheel Water turbine · Series all moving blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat recovery (compressive heat recovery) + Evaporative explosion power + vacuum acceleration in vacuum with a heat pump (1G) Accelerate vertically downward to make the selected lens (2d) longer from the existing materials and aim at increasing the power output Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum In order to increase power generation, various energy storage cycle coalescing engines of power generation method provided with in-line all moving blade water turbine and series all moving blade gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Add compression heat recovery + evaporative detonation force + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) In compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Heat recovery + vaporization evaporative explosion + additional gravity acceleration in the vacuum vertically accelerated downward from existing materials to make the production length of the selected long lens (2d) aim to increase power output Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Add compression heat recovery + vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Evaporative detonation force + add gravity acceleration in a vacuum Accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + In vacuum, add evaporative explosion power + gravity acceleration vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and aim to increase the amount of power generation Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward, divide it and install multiple long lenses (2d) of tightening tool (80B) tightening in order to increase power generation by series full motion Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Vacuumative detonation force + Additional gravity acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Series of all moving blades aiming to increase the amount of concentrated power generation from the existing lens section to the selected section length lens (2d) by accelerating the vaporization explosion power + gravity acceleration vertically downward and increasing the sunlight to water (52b) pipe from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + In vacuum, add evaporative explosion + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increase of power generation Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2.) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerating the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase power generation by increasing width of long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration vertically in the internal air (28a) + vacuum and divide vertically to clamp the fastener (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to aim at the increase of the power generation amount by providing multiple long lenses (2d) attached.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2.) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically, select long lens from existing material (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by making
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with internal water (28a) with a compressed water heat exchanger (2Y) + Add the vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select a lens of selected cross section from the existing lens cross section (2 d A variety of energy storage cycle coalescence engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are installed in multiple stages aiming to increase the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed water heat exchanger (2Y) + internal pressure (28a) + evaporative explosion power + add gravity acceleration in a vacuum + accelerate vertically downwards, adiabatic long lens near the vacuum (2d) and various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine and a series all moving blade gas turbine are installed in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages to increase power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy preservation cycle combined engines of the power generation method which provided in series 2 d) as a set and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring car water turbine and a series all moving wing spring car gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at power generation increase maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in-series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of 2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages which aim at increase power generation by providing long lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increasing power generation by maintaining solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum and divide vertically to divide and clamp multiple clamp lenses (2d) with clamp (80B) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to increase power generation capacity by increasing the size of selected lens (2d) from existing materials Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to make the adiabatic long lens (2d) and sun light nearly perpendicular at the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing materials to increase power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration in a vacuum + accelerate vertically downwards, split clamp (80B) tightening long lens ( Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in-series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of 2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to divide and clamp multiple clamps (80B) Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages which aim at increase power generation by providing long lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select the sun from the existing lens cross section by the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and adiabatic long lens (2d) in the part close to vacuum And various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increasing power generation by maintaining solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select power from the existing material series to aim at increased power generation with the long lens (2d) Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages to increase power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which provided in series 2 d) as a set and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring car water turbine and a series all moving wing spring car gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at power generation increase maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and set the multiple clamp lenses (2d) of the clamp (80B) tightened as a set Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) 28b) Heat water (52b) in + vacuum and add vaporization and explosion power + gravitational acceleration vertically downward to accelerate power generation from existing materials by selecting a long lens (2d) to increase power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to concentrate the sunlight into the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Increase the power generation amount by increasing the width of the long lens (2d) by tightening the split clamp (80B) by heating (52b) in + heating and adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Increase the power generation by heating (52b) in a heating + vacuum and adding the vaporization explosion power + gravitational acceleration vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamp. Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat (52b) Heating + addition of vaporizing explosive force + gravitational acceleration in a vacuum Vertically accelerating downwards vertically from existing materials to increase power output with a long lens (2d) made from existing materials Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Heating (52b) in a heating + vacuum, adding vaporization and explosion power + gravitational acceleration vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with sunlight selected with a cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat (52b) in the heating + vacuum, add the vaporization explosion power + gravity acceleration vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heating water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated down, split lens (80B) clamp long lens Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and tighten clamp (80B) Various energy storage cycle coalescing engines of power generation method in which a series full moving blade water turbine and a series full moving blade elastic wheel gas turbine are provided in multiple stages to aim at increasing power generation by providing a plurality of long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) B) Heating water (52b) with compressed air heat (28b) + Fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make selected long lenses (2d) from existing materials long Various energy preservation cycle combined engine of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn with combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross section lens from existing lens cross section (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming to increase concentrated power generation amount to the water (52b) pipe of sunlight.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (2d) near the vacuum Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increasing power generation by maintaining the solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in series all moving blade elastic wheel gas turbine in multiple stages which aim at increase of power generation by providing (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to maintain the light near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) Heating (52b) + fuel injection and combustion + vaporizing explosion power + gravitational acceleration is added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in a vacuum to accelerate vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection and burning + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downward from the existing material to make the selected production long lens (2d) longer and aiming at increasing total power generation Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) Heating (52b) + fuel injection and burning + vaporization evaporative force + gravitational acceleration is added in vacuum and accelerated vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2 d) into a water (52 b) tube Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection combustion + vaporization evaporative force + gravity acceleration added in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative explosion + gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative explosion + gravity acceleration is added vertically in a vacuum, and divided vertically to provide a set of multiple long lenses (2d) for tightening (80B) tightening and generating power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from existing materials to increase power output by selecting a long lens (2d) made from existing materials・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative force + gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with the selected section long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative force + gravity acceleration added in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the part near the vacuum to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Explosive force maximum + vaporization eruptive force + gravitational acceleration added vertically in vacuum Vertically accelerated downward from existing materials to increase power output with long lens (2d) made of existing materials Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase in capacity + addition of vaporization and explosion power in gravity + acceleration of gravity in vertical downward direction to increase the width of the long lens (2d) by tightening the split clamp (80B) and achieve full power generation Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + add vaporization and explosion force + gravity acceleration in vacuum Vertically accelerate downward vertically, split and install multiple length lenses (2d) of tightening (80B) tightening to aim at increasing power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase in capacity + Evaporative explosion power + addition of gravity acceleration in vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + vaporization evaporative force + addition of gravity acceleration in a vacuum acceleration vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + vaporization evaporative force + addition of gravity acceleration in vacuum vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Explosive force maximum + vaporization eruptive force + gravitational acceleration added vertically in vacuum Vertically accelerated downward from existing materials to increase power output with long lens (2d) made of existing materials Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically downward to increase the width of the split lens clamp (80B) and the long lens (2d) clamp to increase power generation Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically Downwards Splitting and installing multiple long lenses (2d) with tightening tool (80B) tightening to aim at increasing power output・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically Downwards Accelerate vertically downward and increase production capacity by selecting long lenses (2d) from existing materials to increase power output in series All moving blade water turbines ・ Series all moving blade gas turbines multistage Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative Explosion + Gravity Acceleration Added Vertically downward to accelerate sunlight from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power output with a series all moving blade springing wheel water turbine・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Increase in gravitational acceleration by increasing vertically downward to increase the width of the split lens (80B) tightening long lens (2d) to increase power output Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated vertically downward and divided to provide a set of multiple long lenses (2d) by tightening the clamp (80B) tightening to aim at increasing the amount of power generation. Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated vertically downward, and existing materials are made from selected materials Long lenses (2d) to increase power generation Power generation with a series of all moving blades spring water turbine · Series all moving blades spring wheel gas turbine provided in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Add Gravity Acceleration Accelerate vertically downward and aim to increase the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Additional gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increased power generation by series all moving blade springing wheel water turbine · series total movement Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerate in the downward direction and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerating downward, install split full length lens (2d) by dividing and tightening clamp (80B) tightening to aim at increase of power generation series tandem blade moving wheel water turbine ・ series bucket moving wheel gas turbine gas turbine Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerate energy downwards, select from existing materials and increase production capacity by selecting long lens (2d) to increase power generation Various energy conservation of power generation method with multi-stage all-wheels ball-wheel water turbine / series all-wheel ball-wheels gas turbine installed in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerate downward and increase the concentration of the amount of power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross-section length lens (2d) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical A series of all moving blade springing car water turbine and a series all moving blade springing car gas turbine that aims to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at right angle near the vacuum by accelerating downward. Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerate in the downward direction and increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerating downward, install split full length lens (2d) by dividing and tightening clamp (80B) tightening to aim at increase of power generation series tandem blade moving wheel water turbine ・ series bucket moving wheel gas turbine gas turbine Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerate energy downwards, select from existing materials and increase production capacity by selecting long lens (2d) to increase power generation Various energy conservation of power generation method with multi-stage all-wheels ball-wheel water turbine / series all-wheel ball-wheels gas turbine installed in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Accelerate downward and increase the concentration of the amount of power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross-section length lens (2d) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical A series of all moving blade springing car water turbine and a series all moving blade springing car gas turbine that aims to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at right angle near the vacuum by accelerating downward. Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward and increase the width of the split lens (80B) and clamp long lens (2d) to increase power output Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Add explosion power + gravity acceleration vertically downward and divide it into multiple tightening lenses (2B) with tightening tool (80B) tightening to aim at increasing power output Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials Aiming at increase of power output Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Add explosion power + gravitational acceleration vertically downward and aim to increase the concentration of electric energy from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and sunlight at right angle in the part close to vacuum and aim at increasing power generation by series all moving blade springing wheel water turbine ・Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downward in a Vacuum to Accelerate the Split Fastener (80B) Tightening Longer Lens (2d) Width to Increase Power Generation Power by Aiming at Increasing Power Generation Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in-series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of 2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages to increase power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically downward in vacuum, and divided into two sets of multiple length lenses (2d) of tightening (80B) tightening to aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages provided.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages which aim at increase power generation by providing long lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which provided in series 2 d) as a set and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in series all moving blade elastic wheel gas turbine in multiple stages which aim at increase of power generation by providing (2d) as a set.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downwards Accelerate Vertically Downward from Existing Materials to Lengthen Large Lens (2d) to Increase Output Capacity Series All Rotor Blades Spring Water Turbine Water Turbine · All Rotor Blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) Heat recovery (compressive heat recovery) + Evaporative explosion power + vacuum acceleration in vacuum with a heat pump (1G) Accelerate vertically downward to make the selected lens (2d) longer from the existing materials and aim at increasing the power output Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward, to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight from the selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring car water turbine and a series all moving wing spring car gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increasing power generation by maintaining solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at power generation increase maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to maintain the light near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosion Force + Gravity Acceleration in Vacuum + Acceleration Vertically Downwards to Achieve the Same Maximum Amount of Water Generation A series of all moving blade bouncing car water turbine · A series all moving blade bouncing car gas turbine in a multi-stage power generation method Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) Thermal heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to achieve the same water volume maximum power generation series All moving blades Water rolling wheel Water turbine · Series All moving blades Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to achieve the same water volume maximum generation amount All the moving blade springing wheel water Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward to achieve the same water volume maximum power generation series All moving blades Boiling wheel water turbine · Series Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerating vertically downwards to achieve the same water volume maximum power generation series all moving blade springing wheel water turbine · Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration Added vertically downward to increase the width of the split lens (80B) tightening long lens (2d) to increase power output Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is accelerated vertically downward, and divided into a set of multiple fasteners (80B) and tightening multiple lenses (2d) to increase power generation Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration Add vertical acceleration vertically downward, and select existing production materials Long lens (2d) to increase power generation In-line all moving blade springing wheel water turbine · Series all moving blade springing wheel gas turbine is provided in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity Acceleration Add vertical acceleration vertically downward and aim to increase the amount of concentrated power generation to water (52b) pipe from existing lens cross section with selected section length lens (2d) Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration Added vertically downward to keep the adiabatic long lens (2d) and solar light at right angles in the part close to vacuum to aim at increasing power output Series all moving blade Bumping wheel water turbine · Series Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to achieve full power generation Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add vaporization and explosion power + gravitational acceleration in + vacuum vertically downward to divide and install multiple clamp lenses (2 B) with clamp (80 B) clamps in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) to increase the concentrated power generation amount to the water (52 b) tube Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum and aim at increasing power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Increase in power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) tightening by increasing the vaporization explosion power + gravitational acceleration vertically downward in a vacuum Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Additional in-vacuum explosion force + gravitational acceleration is accelerated vertically downward in a vacuum, and divided into two sets of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increasing power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) In-vacuum explosion + gravity acceleration is added vertically vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) from existing materials Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Add all of the moving blade springs in order to increase the amount of concentrated power generation from the existing lens section to the selected section length lens (2d) by accelerating the vaporization explosion power + gravity acceleration vertically downward in vacuum to increase the sunlight to water (52b) pipe Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Additional in-vacuum force + gravity acceleration is accelerated vertically downward in a vacuum to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation by all the moving blades in series Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to achieve full power generation Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add vaporization and explosion power + gravitational acceleration in + vacuum vertically downward to divide and install multiple clamp lenses (2 B) with clamp (80 B) clamps in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) to increase the concentrated power generation amount to the water (52 b) tube Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum and aim at increasing power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to increase the width of the split lens clamp (80B) and the length of the long lens (2d) clamp to increase power generation capacity. Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward, and divided into two sets of multiple clamp lenses (2d) by tightening clamps (80B) tightening to increase power output Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is added Vertically accelerates vertically downwards to make the selected lens (2d) longer from the existing materials to increase power generation capacity A series of all moving blade spring wheel water turbine · A series all blade moving wheel spring wheel gas turbine is provided in multiple stages Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration Additional vertical acceleration to accelerate vertically downward and increase the amount of concentrated power generation to the water (52b) pipe from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increasing power output in series All moving blades Bumping wheel Water turbine ・ All in series Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum In-line total blade springing water turbine aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration by adding vertically downward downward・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Add in the vaporization and explosion power + acceleration of gravity vertically downward and divide it to provide a set of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increase of power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum In-line all-rotor blade-impeller water turbine · In-line all-impact rotor blade-impeller car gas turbine aiming at increasing power generation by adding vertically downward by vaporization explosion power + gravitational acceleration vertically to make selected long lens (2d) from existing materials longer Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Evaporative explosion power + acceleration of gravity is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming to increase the amount of concentrated power generation Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Add in the vaporization explosion power + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increase of power generation by series all moving blade bounce wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward and increase the width of the long lens (2d) by tightening the split clamp (80B) to aim at increasing power generation capacity. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide, and install multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power output Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + In vacuum, add evaporative explosion power + add gravity acceleration vertically downward to accelerate power generation with selected long lenses (2d) selected from existing materials. Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Adds vaporization and explosion power + gravity acceleration in vacuum + Vertically accelerates vertically downward, and aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with solar light with selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add the vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum, and aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Increase in gravitational acceleration by increasing vertically downward to increase the width of the split lens (80B) tightening long lens (2d) to increase power output Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward and divided to provide a set of multiple long lenses (2d) by tightening the clamp (80B) tightening to aim at increasing the amount of power generation. Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward, and existing materials are made from selected materials Long lenses (2d) to increase power generation Power generation with a series of all moving blades spring water turbine · Series all moving blades spring wheel gas turbine provided in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Add Gravity Acceleration Accelerate vertically downward and aim to increase the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Additional gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increased power generation by series all moving blade springing wheel water turbine · series total movement Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Vertically accelerate downward and increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Vertical all-in-one blade springing car water turbine · All-in-class all blade springing wheel gas turbine gas turbine aiming at increasing power generation by providing a set of multiple long lenses (2d) by accelerating in the vertical downward direction and dividing and tightening the clamp (80B) Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Various energy of the power generation method provided with multi-stage series moving blade spring wheel water turbine and series full blade moving wheel gas turbine in multiple stages to accelerate the vertical downward and increase power generation capacity by selecting long lenses (2d) selected from existing materials Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Accelerating vertically downward, aiming to increase the concentration of electric power generated from the existing lens cross section to the sunlight with water (52b) pipe with selected cross-section length lens (2d) Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Vertical all-wafer ball-lifting wheel water turbine · Series all-wafer ring-bolting wheel gas turbine aiming at increasing power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle near the vacuum by accelerating vertically downward Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Increase the amount of power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating the internal air in compression heat recovery + vacuum and vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Generate internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide, divide and set multiple long lenses (2d) of clamp (80B) clamp to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add compression heat recovery + vaporization evaporative explosion power + gravity acceleration inside vertically to accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air in compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative detonation force + add gravitational acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Increase the amount of power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating the internal air in compression heat recovery + vacuum and vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Generate internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide, divide and set multiple long lenses (2d) of clamp (80B) clamp to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add compression heat recovery + vaporization evaporative explosion power + gravity acceleration inside vertically to accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air in compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum In-line total blade springing water turbine aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration by adding vertically downward downward・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Add in the vaporization and explosion power + acceleration of gravity vertically downward and divide it to provide a set of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increase of power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum In-line all-rotor blade-impeller water turbine · In-line all-impact rotor blade-impeller car gas turbine aiming at increasing power generation by adding vertically downward by vaporization explosion power + gravitational acceleration vertically to make selected long lens (2d) from existing materials longer Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Evaporative explosion power + acceleration of gravity is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming to increase the amount of concentrated power generation Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Add in the vaporization explosion power + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increase of power generation by series all moving blade bounce wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration Added vertically downward to increase the width of the split lens (80B) tightening long lens (2d) to increase power output Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is accelerated vertically downward, and divided into a set of multiple fasteners (80B) and tightening multiple lenses (2d) to increase power generation Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration Add vertical acceleration vertically downward, and select existing production materials Long lens (2d) to increase power generation In-line all moving blade springing wheel water turbine · Series all moving blade springing wheel gas turbine is provided in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity Acceleration Add vertical acceleration vertically downward and aim to increase the amount of concentrated power generation to water (52b) pipe from existing lens cross section with selected section length lens (2d) Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration Added vertically downward to keep the adiabatic long lens (2d) and solar light at right angles in the part close to vacuum to aim at increasing power output Series all moving blade Bumping wheel water turbine · Series Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation force + gravitational acceleration under compression heat recovery + vacuum and accelerate vertically downward, and the split fastener (80B) clamp long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Multiple heats of internal air (28a) by heat pump (1G), compression heat recovery + vaporization and explosion power + additional gravity acceleration is added vertically downward to divide and clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in series all moving blade elastic wheel gas turbine in multiple stages which aim at increase of power generation by providing (2d) as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + vacuum in a vacuum, add vaporization power + gravity acceleration vertically downward to make the selected lens from existing materials long enough to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + in a vacuum add vaporization power + gravitational acceleration accelerate vertically downward and select sunlight from cross section of existing lens with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation power + gravitational acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and the sun at the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to maintain the light near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation force + gravitational acceleration under compression heat recovery + vacuum and accelerate vertically downward, and the split fastener (80B) clamp long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Multiple heats of internal air (28a) by heat pump (1G), compression heat recovery + vaporization and explosion power + additional gravity acceleration is added vertically downward to divide and clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in series all moving blade elastic wheel gas turbine in multiple stages which aim at increase of power generation by providing (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + vacuum in a vacuum, add vaporization power + gravity acceleration vertically downward to make the selected lens from existing materials long enough to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + in a vacuum add vaporization power + gravitational acceleration accelerate vertically downward and select sunlight from cross section of existing lens with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation power + gravitational acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and the sun at the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to maintain the light near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) Increase the power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) by accelerating the compression heat recovery + evaporation vaporization power + gravitational acceleration vertically downward in (1 G) + vacuum Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward to divide, and provide multiple long lenses (2d) of clamp (80B) clamp as a set to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In 1G, compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from existing materials to increase power output by making long lens selected from long materials (2d) Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section long lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in vacuum, vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) and aim at increased power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + addition of vaporization and explosion power + gravity acceleration in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of tightening (80B) tightening to aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum Vertically accelerate downwards vertically to increase sunlight from the existing lens section to the water (52b) tube with selected section length lens (2d) in series Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + Add evaporative explosive power + Gravity acceleration in a vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) + internal pressure of the air (28b) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum to accelerate the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase the width of tightening long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the fastener ( 80B) Various energy storage cycle coalescing engines of the power generation method in which a series full moving blade spring wheel water turbine and a series full moving blade spring wheel gas turbine are provided in multiple stages aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as set .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight by water (52b) tube with lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal heat (28a) in the vacuum + add vaporizing explosion power + gravity acceleration in the vacuum vertically accelerating downward and heat insulation in the part close to the vacuum Various energy conservation cycle combined engines of power generation method that cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages to aim at increasing power generation by maintaining long lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2.) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerating the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase power generation by increasing width of long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration vertically in the internal air (28a) + vacuum and divide vertically to clamp the fastener (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to aim at the increase of the power generation amount by providing multiple long lenses (2d) attached.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2.) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically, select long lens from existing material (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by making
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with internal water (28a) with a compressed water heat exchanger (2Y) + Add the vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select a lens of selected cross section from the existing lens cross section (2 d A variety of energy storage cycle coalescence engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are installed in multiple stages aiming to increase the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed water heat exchanger (2Y) + internal pressure (28a) + evaporative explosion power + add gravity acceleration in a vacuum + accelerate vertically downwards, adiabatic long lens near the vacuum (2d) and various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine and a series all moving blade gas turbine are installed in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) + internal pressure of the air (28b) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum to accelerate the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase the width of tightening long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the fastener ( 80B) Various energy storage cycle coalescing engines of the power generation method in which a series full moving blade spring wheel water turbine and a series full moving blade spring wheel gas turbine are provided in multiple stages aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight by water (52b) tube with lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal heat (28a) in the vacuum + add vaporizing explosion power + gravity acceleration in the vacuum vertically accelerating downward and heat insulation in the part close to the vacuum Various energy conservation cycle combined engines of power generation method that cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages to aim at increasing power generation by maintaining long lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages to increase power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy preservation cycle combined engines of the power generation method which provided in series 2 d) as a set and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring car water turbine and a series all moving wing spring car gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at power generation increase maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided in series and aimed at increase of power generation capacity in series all moving blade water turbine and series all moving blade gas wheel turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward from existing materials to increase power output by making selected long lens (2d) longer Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward to select sunlight from cross section of existing lens with water (52b) pipe with water (52b) tube Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and in the part close to vacuum, adiabatic long lens (2d) and sunlight at right angle Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to maintain and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive force + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase power generation by increasing width of long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to aim at the increase of the power generation amount by providing multiple long lenses (2d) attached.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum, accelerate vertically downward, select lens made from existing material, long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by making
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from cross section of existing lens (2d A variety of energy storage cycle coalescence engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are installed in multiple stages aiming to increase the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum + accelerate vertically downward and adiabatic long lens near the vacuum (2d) and various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine and a series all moving blade gas turbine are installed in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration in a vacuum + accelerate vertically downwards, split clamp (80B) tightening long lens ( Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in-series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of 2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to divide and clamp multiple clamps (80B) Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages which aim at increase power generation by providing long lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select the sun from the existing lens cross section by the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and adiabatic long lens (2d) in the part close to vacuum And various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increasing power generation by maintaining solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive force + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase power generation by increasing width of long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to aim at the increase of the power generation amount by providing multiple long lenses (2d) attached.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum, accelerate vertically downward, select lens made from existing material, long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by making
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from cross section of existing lens (2d A variety of energy storage cycle coalescence engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are installed in multiple stages aiming to increase the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum + accelerate vertically downward and adiabatic long lens near the vacuum (2d) and various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine and a series all moving blade gas turbine are installed in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) In order to increase power generation, various energy storage cycle coalescing engines of power generation method provided with in-line all moving blade water turbine and series all moving blade gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select power from the existing material series to aim at increased power generation with the long lens (2d) Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing materials to increase power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, divide and clamp (80B) Various energy conservation cycle combined engines of the power generation method which set in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at increase of power generation by setting the tightening multiple length lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials (2d) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by lengthening the
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens from selected lens cross section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring car water turbine and in series all moving wing spring car gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the water (52b) pipe in 2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward vertically to lengthen the heat insulation in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by maintaining lens (2d) and sunlight at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heating water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated down, split lens (80B) clamp long lens Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and tighten clamp (80B) Various energy storage cycle coalescing engines of power generation method in which a series full moving blade water turbine and a series full moving blade elastic wheel gas turbine are provided in multiple stages to aim at increasing power generation by providing a plurality of long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) B) Heating water (52b) with compressed air heat (28b) + Fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make selected long lenses (2d) from existing materials long Various energy preservation cycle combined engine of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn with combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross section lens from existing lens cross section (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming to increase concentrated power generation amount to the water (52b) pipe of sunlight.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (2d) near the vacuum Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increasing power generation by maintaining the solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, divide and clamp (80B) Various energy conservation cycle combined engines of the power generation method which set in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at increase of power generation by setting the tightening multiple length lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials (2d) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by lengthening the
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens from selected lens cross section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring car water turbine and in series all moving wing spring car gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the water (52b) pipe in 2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward vertically to lengthen the heat insulation in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by maintaining lens (2d) and sunlight at right angle vicinity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection and burning + vaporization and explosion power + additional gravity acceleration in a vacuum, accelerating vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward from existing materials to make the selected lens long (2d) to increase power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to concentrate sunlight on the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downwards to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the vaporization explosion power + gravity acceleration in the vacuum to maximize the vaporization explosion power max + + vertically downward to divide and install the multiple clamp lenses (2 d) of the clamp (80 B) clamp in a set Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 B) Maximum increase in vaporization explosion power + Addition of vaporization explosion power + gravity acceleration in vacuum Vertical acceleration down vertically from existing materials to increase power generation with long lens selected production long lens (2d) All blades moving wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward, from the existing lens cross section to the selected section length lens (2 d) concentrated sunlight to water (52 b) tube Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Maximize the vaporization explosion power + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Explosive force maximum + vaporization eruptive force + gravitational acceleration added vertically in vacuum Vertically accelerated downward from existing materials to increase power output with long lens (2d) made of existing materials Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downwards to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the vaporization explosion power + gravity acceleration in the vacuum to maximize the vaporization explosion power max + + vertically downward to divide and install the multiple clamp lenses (2 d) of the clamp (80 B) clamp in a set Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 B) Maximum increase in vaporization explosion power + Addition of vaporization explosion power + gravity acceleration in vacuum Vertical acceleration down vertically from existing materials to increase power generation with long lens selected production long lens (2d) All blades moving wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward, from the existing lens cross section to the selected section length lens (2 d) concentrated sunlight to water (52 b) tube Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Maximize the vaporization explosion power + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Increase in power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) tightening by increasing the vaporization explosion power + gravitational acceleration vertically downward in a vacuum Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Additional in-vacuum explosion force + gravitational acceleration is accelerated vertically downward in a vacuum, and divided into two sets of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increasing power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + In-vacuum explosion + gravity acceleration is added vertically vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) from existing materials Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Add all of the moving blade springs in order to increase the amount of concentrated power generation from the existing lens section to the selected section length lens (2d) by accelerating the vaporization explosion power + gravity acceleration vertically downward in vacuum to increase the sunlight to water (52b) pipe Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Additional in-vacuum force + gravity acceleration is accelerated vertically downward in a vacuum to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation by all the moving blades in series Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward and increase the width of the split lens (80B) and clamp long lens (2d) to increase power output Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Add explosion power + gravity acceleration vertically downward and divide it into multiple tightening lenses (2B) with tightening tool (80B) tightening to aim at increasing power output Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials Aiming at increase of power output Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward and aim to increase the concentration of electric energy from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and sunlight at right angle in the part close to vacuum and aim at increasing power generation by series all moving blade springing wheel water turbine ・Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Series vertical bladed wheel water turbine · Series all bladed wheel bouncer gas turbine to increase power generation by increasing the width of the long lens (2d) by tightening the split clamp (80B) vertically downward. Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Additional vertical acceleration down vertically, split and install multiple clamp lenses (2d) with clamp (80B) clamps in order to increase power generation in series All moving blade springing wheel Water turbine · Series all moving wing springing wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration In order to increase power output by accelerating vertically downward and increasing the production capacity by selecting long lenses (2d) from existing materials, a series of all moving blade springing wheel water turbines and a series all moving wing springing wheel gas turbine are provided in multiple stages Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Additional vertical acceleration accelerates vertically downward, and increases the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Additional vertical acceleration accelerates downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increasing power output in series All moving blades Water rolling wheel Water turbine · Series All moving blades Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Series vertical bladed wheel water turbine · Series all bladed wheel bouncer gas turbine to increase power generation by increasing the width of the long lens (2d) by tightening the split clamp (80B) vertically downward. Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Additional vertical acceleration down vertically, split and install multiple clamp lenses (2d) with clamp (80B) clamps in order to increase power generation in series All moving blade springing wheel Water turbine · Series all moving wing springing wheel Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration In order to increase power output by accelerating vertically downward and increasing the production capacity by selecting long lenses (2d) from existing materials, a series of all moving blade springing wheel water turbines and a series all moving wing springing wheel gas turbine are provided in multiple stages Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Additional vertical acceleration accelerates vertically downward, and increases the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Additional vertical acceleration accelerates downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increasing power output in series All moving blades Water rolling wheel Water turbine · Series All moving blades Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum In-line total blade springing water turbine aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration by adding vertically downward downward・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Add in the vaporization and explosion power + acceleration of gravity vertically downward and divide it to provide a set of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increase of power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum In-line all-rotor blade-impeller water turbine · In-line all-impact rotor blade-impeller car gas turbine aiming at increasing power generation by adding vertically downward by vaporization explosion power + gravitational acceleration vertically to make selected long lens (2d) from existing materials longer Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Evaporative explosion power + acceleration of gravity is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming to increase the amount of concentrated power generation Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Add in the vaporization explosion power + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increase of power generation by series all moving blade bounce wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in-series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of 2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages to increase power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages which aim at increase power generation by providing long lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which provided in series 2 d) as a set and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in series all moving blade elastic wheel gas turbine in multiple stages which aim at increase of power generation by providing (2d) as a set.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative detonation force + add gravitational acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring car water turbine and a series all moving wing spring car gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increasing power generation by maintaining solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at power generation increase maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to maintain the light near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat recovery + vaporization evaporative explosion + additional gravity acceleration in the vacuum vertically accelerated downward to achieve the same water volume maximum power generation series full rotor blade bounce wheel water turbine · series full bucket movement wheel bounce gear gas turbine is provided in multiple stages Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) by heat pump (1G) by compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to achieve the same amount of water and maximum power generation Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to achieve the same water volume maximum generation amount All the moving blade springing wheel water Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward to achieve the same water volume maximum power generation series All moving blades Boiling wheel water turbine · Series Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerating vertically downwards to achieve the same water volume maximum power generation series all moving blade springing wheel water turbine · Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically downward to increase the width of the split lens clamp (80B) and the long lens (2d) clamp to increase power generation Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically Downwards Splitting and installing multiple long lenses (2d) with tightening tool (80B) tightening to aim at increasing power output・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically Downwards Accelerate vertically downward and increase production capacity by selecting long lenses (2d) from existing materials to increase power output in series All moving blade water turbines ・ Series all moving blade gas turbines multistage Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative Explosion + Gravity Acceleration Added Vertically downward to accelerate sunlight from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power output with a series all moving blade springing wheel water turbine・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + Add evaporative explosion power + Gravity acceleration in a vacuum Vertically accelerate downwards vertically to select power from existing materials Long objective lens (2d) aiming to increase power output Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to achieve full power generation Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add vaporization and explosion power + gravitational acceleration in + vacuum vertically downward to divide and install multiple clamp lenses (2 B) with clamp (80 B) clamps in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) to increase the concentrated power generation amount to the water (52 b) tube Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum and aim at increasing power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + Add evaporative explosion power + Gravity acceleration in a vacuum Vertically accelerate downwards vertically to select power from existing materials Long objective lens (2d) aiming to increase power output Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically downward to increase the width of the split lens clamp (80B) and the long lens (2d) clamp to increase power generation Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically Downwards Splitting and installing multiple long lenses (2d) with tightening tool (80B) tightening to aim at increasing power output・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically Downwards Accelerate vertically downward and increase production capacity by selecting long lenses (2d) from existing materials to increase power output in series All moving blade water turbines ・ Series all moving blade gas turbines multistage Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative Explosion + Gravity Acceleration Added Vertically downward to accelerate sunlight from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative Explosive Force + Gravity Acceleration Added Vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power output with a series all moving blade springing wheel water turbine・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Increase in gravitational acceleration by increasing vertically downward to increase the width of the split lens (80B) tightening long lens (2d) to increase power output Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward and divided to provide a set of multiple long lenses (2d) by tightening the clamp (80B) tightening to aim at increasing the amount of power generation. Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward, and existing materials are made from selected materials Long lenses (2d) to increase power generation Power generation with a series of all moving blades spring water turbine · Series all moving blades spring wheel gas turbine provided in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Add Gravity Acceleration Accelerate vertically downward and aim to increase the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Additional gravity acceleration is accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to aim at increased power generation by series all moving blade springing wheel water turbine · series total movement Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to increase the width of the long lens (2d) for tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + addition of vaporization and explosion power + gravitational acceleration in vacuum + vertical acceleration vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward and increase the width of the split lens (80B) and clamp long lens (2d) to increase power output Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravity acceleration vertically downward and divide it into multiple tightening lenses (2B) with tightening tool (80B) tightening to aim at increasing power output Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials Aiming at increase of power output Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward and aim to increase the concentration of electric energy from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and sunlight at right angle in the part close to vacuum and aim at increasing power generation by series all moving blade springing wheel water turbine ・Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater In-line total blade springing water turbine aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration by adding vertically downward downward・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Add in the vaporization and explosion power + acceleration of gravity vertically downward and divide it to provide a set of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increase of power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater In-line all-rotor blade-impeller water turbine · In-line all-impact rotor blade-impeller car gas turbine aiming at increasing power generation by adding vertically downward by vaporization explosion power + gravitational acceleration vertically to make selected long lens (2d) from existing materials longer Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Evaporative explosion power + acceleration of gravity is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming to increase the amount of concentrated power generation Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Add in the vaporization explosion power + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increase of power generation by series all moving blade bounce wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward and increase the width of the split lens (80B) and clamp long lens (2d) to increase power output Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravity acceleration vertically downward and divide it into multiple tightening lenses (2B) with tightening tool (80B) tightening to aim at increasing power output Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Addition of explosive force + gravitational acceleration Vertically accelerate downward Vertically to increase power output by selecting long lenses (2d) from existing materials Aiming at increase of power output Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward and aim to increase the concentration of electric energy from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and sunlight at right angle in the part close to vacuum and aim at increasing power generation by series all moving blade springing wheel water turbine ・Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Increase the acceleration Acceleration vertically downward and increase the width of the long lens (2d) by tightening the split clamp (80B) to aim at increasing power output Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Acceleration Add vertical downward acceleration, divide, and provide multiple tightening lenses (2B) with tightening tool (80B) tightening to increase power generation in series All moving blades Bumping wheel Water turbine ・ Series all moving blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Acceleration power is added vertically downward to accelerate power generation from existing materials by selecting a long lens (2d) to increase power generation Power generation method with cascaded all buckets wheel water turbine / series all buckets wheeled wheel gas turbine in multiple stages The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Add acceleration Acceleration vertically downward and aim to increase the amount of concentrated power generation from the existing lens cross section to the sunlight with water (52b) pipe with selected cross section lens (2d) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Acceleration Additional acceleration Vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power output in series All moving blades Bumping wheel Water turbine · Series all moving blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + evaporation in the vacuum + acceleration of gravity acceleration is added vertically downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + acceleration of gravity is added vertically downward to split, split and clamp (80B) clamp multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to make the selected lens (2d) longer from existing materials to increase power output Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravitational acceleration is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section long lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravity acceleration is added vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downward in a Vacuum to Accelerate the Split Fastener (80B) Tightening Longer Lens (2d) Width to Increase Power Generation Power by Aiming at Increasing Power Generation Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically downward in vacuum, and divided into two sets of multiple length lenses (2d) of tightening (80B) tightening to aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downwards Accelerate Vertically Downward from Existing Materials to Lengthen Large Lens (2d) to Increase Output Capacity Series All Rotor Blades Spring Water Turbine Water Turbine · All Rotor Blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward, to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight from the selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation force + add gravitational acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downward in a Vacuum to Accelerate the Split Fastener (80B) Tightening Longer Lens (2d) Width to Increase Power Generation Power by Aiming at Increasing Power Generation Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically downward in vacuum, and divided into two sets of multiple length lenses (2d) of tightening (80B) tightening to aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downwards Accelerate Vertically Downward from Existing Materials to Lengthen Large Lens (2d) to Increase Output Capacity Series All Rotor Blades Spring Water Turbine Water Turbine · All Rotor Blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum, and accelerated vertically downward, to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight from the selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosion Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum In order to increase the power generation amount by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically increasing the vaporization explosion power + gravitational acceleration vertically downward, the series all moving blade springing water turbine · Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Add the vaporization explosion power + gravity acceleration vertically downward, divide it and install multiple long lenses (2d) of tightening tool (80B) tightening to set power generation amount by aiming at increasing power generation series Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Add the vaporization explosion power + gravity acceleration vertically downward to accelerate vertically downward and increase production capacity by selecting a long lens (2d) from existing materials, and aiming at increasing power generation in series All moving blades water turbine ・ Series all moving blades elastic car gas turbine Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Evaporative explosion power + gravity acceleration is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming at increasing the amount of concentrated power generation・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Evaporative explosion power + gravity acceleration is added vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight at right angle in the part close to vacuum to aim at increased power generation by series all moving blade springing wheel water Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the split clamp (80B) clamp long lens Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + add vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, split and clamp (80B) clamp Various energy storage cycle coalescing engines of power generation method in which a series full moving blade water turbine and a series full moving blade elastic wheel gas turbine are provided in multiple stages to aim at increasing power generation by providing a plurality of long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engine of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction accelerated vertically downward and select section length lens (2d) from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming to increase concentrated power generation amount to the water (52b) pipe of sunlight.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat recovery of the internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and the adiabatic long lens (2d) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increasing power generation by maintaining the solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat recovery (compressive heat recovery) + Evaporative explosion power + vacuum acceleration in vacuum with a heat pump (1G) Accelerate vertically downward to make the selected lens (2d) longer from the existing materials and aim at increasing the power output Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum In order to increase power generation, various energy storage cycle coalescing engines of power generation method provided with in-line all moving blade water turbine and series all moving blade gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat recovery (compressive heat recovery) + Evaporative explosion power + vacuum acceleration in vacuum with a heat pump (1G) Accelerate vertically downward to make the selected lens (2d) longer from the existing materials and aim at increasing the power output Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Add compression heat recovery + Evaporative explosion force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) and increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward, divided, and a set of multiple long lenses (2d) for tightening (80B) tightening is provided to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Compressive heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) selected from existing materials・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Add compression heat recovery + Evaporative explosion power + Gravity acceleration in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added vertically in vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward, divided clamp (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase the width of tightening long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + add vertical acceleration downward, divide the internal air (28a) in the vertical direction and divide the fastener ( 80B) Various energy storage cycle coalescing engines of the power generation method in which a series full moving blade spring wheel water turbine and a series full moving blade spring wheel gas turbine are provided in multiple stages aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add vaporizing explosive power + gravitational acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to select the selected cross section length from the existing lens cross section Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight by water (52b) tube with lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward to adiabatic at the part close to vacuum Various energy conservation cycle combined engines of power generation method that cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages to aim at increasing power generation by maintaining long lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages to increase power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy preservation cycle combined engines of the power generation method which provided in series 2 d) as a set and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring car water turbine and a series all moving wing spring car gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at power generation increase maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in-series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of 2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages which aim at increase power generation by providing long lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increasing power generation by maintaining solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages to increase power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy preservation cycle combined engines of the power generation method which provided in series 2 d) as a set and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring car water turbine and a series all moving wing spring car gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at power generation increase maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided in series and aimed at increase of power generation capacity in series all moving blade water turbine and series all moving blade gas wheel turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward from existing materials to increase power output by making selected long lens (2d) longer Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward to select sunlight from cross section of existing lens with water (52b) pipe with water (52b) tube Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and in the part close to vacuum, adiabatic long lens (2d) and sunlight at right angle Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to maintain and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase power generation by increasing width of long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat amount + add vaporizing explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to aim at the increase of the power generation amount by providing multiple long lenses (2d) attached.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make a selected lens from existing materials Long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by making
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross-section length lens from existing lens cross-section (2d A variety of energy storage cycle coalescence engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are installed in multiple stages aiming to increase the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) and various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine and a series all moving blade gas turbine are installed in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select power from the existing material series to aim at increased power generation with the long lens (2d) Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages to increase power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy preservation cycle combined engines of the power generation method which provided in series 2 d) as a set and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring car water turbine and a series all moving wing spring car gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at power generation increase maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select power from the existing material series to aim at increased power generation with the long lens (2d) Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing materials to increase power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosion power + gravity acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to divide and clamp (80B) Various energy conservation cycle combined engines of the power generation method which set in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at increase of power generation by setting the tightening multiple length lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, select lens made from existing material, long lens (2d Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by lengthening the
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravity acceleration in vacuum add acceleration vertically downward and select lens from selected lens cross section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring car water turbine and in series all moving wing spring car gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the water (52b) pipe in 2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downwards, length of heat insulation in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by maintaining lens (2d) and sunlight at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in series all moving blade elastic wheel gas turbine in multiple stages which aim at increase of power generation by providing (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to maintain the light near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection and burning + vaporization and explosion power + additional gravity acceleration in a vacuum, accelerating vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward from existing materials to make the selected lens long (2d) to increase power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to concentrate sunlight on the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the container (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to increase the width of the split lens (80B) clamping long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided in series and aimed at increase of power generation capacity in series all moving blade water turbine and series all moving blade gas wheel turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravity acceleration is added vertically in vacuum and accelerated vertically downward to make the selected lens (2d) longer from existing materials to increase power output Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is increased to the maximum + the evaporation explosion power + gravitational acceleration is added vertically downward in the vacuum chamber (2) and the sunlight is accelerated by the vertical cross section from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the vessel (2) + the vaporization explosion power + gravity acceleration is added vertically downward in vacuum and accelerated vertically downward, and the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to maintain and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase in capacity + addition of vaporization and explosion power in gravity + acceleration of gravity in vertical downward direction to increase the width of the long lens (2d) by tightening the split clamp (80B) and achieve full power generation Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + add vaporization and explosion force + gravity acceleration in vacuum Vertically accelerate downward vertically, split and install multiple length lenses (2d) of tightening (80B) tightening to aim at increasing power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase in capacity + Evaporative explosion power + addition of gravity acceleration in vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + vaporization evaporative force + addition of gravity acceleration in a vacuum acceleration vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + vaporization evaporative force + addition of gravity acceleration in vacuum vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Explosive force maximum + vaporization eruptive force + gravitational acceleration added vertically in vacuum Vertically accelerated downward from existing materials to increase power output with long lens (2d) made of existing materials Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase in capacity + addition of vaporization and explosion power in gravity + acceleration of gravity in vertical downward direction to increase the width of the long lens (2d) by tightening the split clamp (80B) and achieve full power generation Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + add vaporization and explosion force + gravity acceleration in vacuum Vertically accelerate downward vertically, split and install multiple length lenses (2d) of tightening (80B) tightening to aim at increasing power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase in capacity + Evaporative explosion power + addition of gravity acceleration in vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + vaporization evaporative force + addition of gravity acceleration in a vacuum acceleration vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + vaporization evaporative force + addition of gravity acceleration in vacuum vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum In-line total blade springing water turbine aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration by adding vertically downward downward・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Add in the vaporization and explosion power + acceleration of gravity vertically downward and divide it to provide a set of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increase of power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum In-line all-rotor blade-impeller water turbine · In-line all-impact rotor blade-impeller car gas turbine aiming at increasing power generation by adding vertically downward by vaporization explosion power + gravitational acceleration vertically to make selected long lens (2d) from existing materials longer Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Evaporative explosion power + acceleration of gravity is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming to increase the amount of concentrated power generation Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Add in the vaporization explosion power + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increase of power generation by series all moving blade bounce wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum In-line total blade springing water turbine aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration by adding vertically downward downward・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Add in the vaporization and explosion power + acceleration of gravity vertically downward and divide it to provide a set of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increase of power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum In-line all-rotor blade-impeller water turbine · In-line all-impact rotor blade-impeller car gas turbine aiming at increasing power generation by adding vertically downward by vaporization explosion power + gravitational acceleration vertically to make selected long lens (2d) from existing materials longer Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Evaporative explosion power + acceleration of gravity is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming to increase the amount of concentrated power generation Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Add in the vaporization explosion power + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increase of power generation by series all moving blade bounce wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum In-line total blade springing water turbine aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration by adding vertically downward downward・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Add in the vaporization and explosion power + acceleration of gravity vertically downward and divide it to provide a set of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increase of power output Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum In-line all-rotor blade-impeller water turbine · In-line all-impact rotor blade-impeller car gas turbine aiming at increasing power generation by adding vertically downward by vaporization explosion power + gravitational acceleration vertically to make selected long lens (2d) from existing materials longer Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Evaporative explosion power + acceleration of gravity is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) aiming to increase the amount of concentrated power generation Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Add in the vaporization explosion power + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to the vacuum to aim at increase of power generation by series all moving blade bounce wheel Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating the vaporization explosion power + gravitational acceleration vertically downward in the optical heater (2) + vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and fixed length lenses (2d) as a set to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum vertically accelerated downward from existing materials to increase power generation with long lenses selected from long materials (2d) Series all moving blade springing wheel water turbine・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section long lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a perpendicular angle in the part brought close to the vacuum Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air air compression heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the split clamp (80B) tightening long lens (2d) width In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate split clamp (80B) tightening Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase power generation by increasing width of long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide Aiming at increasing the power generation by increasing the width of the attachment (80B) -fastened long lens (2d) Various energy conservation of the power generation method with multi-stage rotary blade water turbine and series full rotary blade gas turbine arranged in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration vertically in vacuum, accelerate vertically downward, split fastener ( 80B) Various energy conservation cycle coalescing engines of power generation method provided with in-line all moving blade water turbine and in-line all moving blade gas turbine in multiple stages aiming at increasing power generation by increasing the width of the tightening long lens (2d) .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertical acceleration vertically, split fastener (80B) To increase power generation capacity by increasing the width of the tightening long lens (2d) Various energy conservation cycle combination of power generation method with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to divide, divide and clamp (80B) clamp multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and tighten clamp (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to aim at the increase of the power generation amount by providing multiple long lenses (2d) attached.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide Various power generation methods using multi-longitudinal blade moving wheel water turbine / series full moving blade elastic wheel gas turbine installed in multiple stages to aim at increasing power generation by providing multiple long lenses (2d) by tightening fasteners (80B) as a set Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp Various energy preservation cycles of the power generation method which installed in series all moving blade bounce wheel water turbine and in series all moving blade bounce wheel gas turbine in multiple stages to aim at increase of power generation by providing multiple set length lens (2d) tightened by tool (80B) Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add additional vertically downward to divide and clamp A set of multiple long lenses (2d) tightened with accessories (80B) to increase power generation Various energy conservation of the power generation method with multi-stage all-wheels ball-wheel water turbine / series all-wheel ball-wheels gas turbine installed in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Add heat inside the air in compression heat recovery + vacuum, add vaporization power + gravity acceleration vertically downward, and select series from existing materials aiming to increase power generation by making the selected manufacturing long lens (2d) longer Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate selected organic lens from existing materials Long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by making
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosivity + gravity acceleration in a vacuum add acceleration vertically downward, existing material Various energy preservation cycle combined engines of power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of power generation by making long lens (2d) selected.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select from existing materials Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward to select from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to accelerate sunlight from the existing lens cross section with selected cross section lens (2d) water (52b) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate from the existing lens cross section A variety of energy storage cycle coalescence engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are installed in multiple stages aiming to increase the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, existing lens Various energy of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming to increase the concentrated power generation amount to the water (52b) pipe by selecting sectioned long lens (2d) from cross section Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + acceleration of gravity in vacuum vertically downward to select from existing lens cross section Various energy conservation cycle combination of the electric power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) tube by long section lens (2d) organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward from existing lens cross section Various energy preservation cycles of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) pipe with selected cross section long lens (2d) Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to accelerate the vertical direction, the long lens (2d) of the heat insulation in the part close to the vacuum and the sunlight Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) and various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine and a series all moving blade gas turbine are installed in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to vacuum Aiming at increasing power generation by keeping the long lens (2d) of heat insulation near the right angle with the solar light and aiming at the increase of power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downwards, part brought close to vacuum Various energy conservation cycles of the power generation method that cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbines in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward and brought close to vacuum Aiming at increasing power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle to increase power generation Various energy conservation of power generation method provided with multistage of all series blade moving wheel water turbine and series all blade moving wheel gas turbine Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Compress internal heat for compression heat recovery + Add vaporization and explosion power + Gravity acceleration vertically in a vacuum to accelerate vertically downward to achieve the same water volume and maximum power output Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward to achieve maximum power generation with the same amount of water Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the same amount of water Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at maximum power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to generate the same amount of water maximum power Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, same water amount maximum power generation Various energy preservation cycle combined engines of power generation method which set in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at quantity.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to increase the width of the long lens (2d) for tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + addition of vaporization and explosion power + gravitational acceleration in vacuum + vertical acceleration vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Add the evaporative explosion power + gravitational acceleration vertically in a close proximity to etc + + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split clamp (80B) clamp the length of the long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) And so on perpendicular to + + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, split and clamp (80B) tightening multiple lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right and so on + solar light heater (2) + add vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle with + + solar light heater (2) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right and so on + solar light heater (2) + add evaporative explosion power + gravitational acceleration in the vacuum vertically accelerating vertically downward to make the adiabatic long lens (2d) and the sun light at right angle at the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to increase the width of the long lens (2d) for tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + addition of vaporization and explosion power + gravitational acceleration in vacuum + vertical acceleration vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightened by the split clamp (80B), thereby increasing power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and multiple length lenses (2d) tightened to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate downward vertically to increase power output with selected long lens (2d) selected from existing materials Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to increase the width of the long lens (2d) for tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + addition of vaporization and explosion power + gravitational acceleration in vacuum + vertical acceleration vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + In vacuum, add evaporative explosion power + gravity acceleration vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and aim to increase the amount of power generation Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward, divide it and install multiple long lenses (2d) of tightening tool (80B) tightening in order to increase power generation by series full motion Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Vacuumative detonation force + Additional gravity acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Series of all moving blades aiming to increase the amount of concentrated power generation from the existing lens section to the selected section length lens (2d) by accelerating the vaporization explosion power + gravity acceleration vertically downward and increasing the sunlight to water (52b) pipe from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + In vacuum, add evaporative explosion + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increase of power generation Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Increase the width of the split lens (80B) clamping long lens (2d) by approaching vertically with + solar light heater (2) + add evaporative explosion power + gravitational acceleration in vacuum in vertical direction In order to increase power generation, various energy storage cycle coalescing engines of power generation method provided with in-line all moving blade water turbine and series all moving blade gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple fasteners (80B) with multiple lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approach perpendicular to + solar light heater (2) + add vaporization explosion force + gravitational acceleration in a vacuum and accelerate vertically downward to select power from existing materials in series to aim at increasing power generation with long lenses (2d) Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the vaporization explosion force + gravitational acceleration in a vacuum, accelerate vertically downwards, and make the adiabatic long lens (2d) and sunlight close to a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamps to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating the vaporization explosion power + gravitational acceleration vertically downward in the optical heater (2) + vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and fixed length lenses (2d) as a set to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum vertically accelerated downward from existing materials to increase power generation with long lenses selected from long materials (2d) Series all moving blade springing wheel water turbine・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section long lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a perpendicular angle in the part brought close to the vacuum Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamps to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add vaporization and explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Increase in power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) tightening by increasing the vaporization explosion power + gravitational acceleration vertically downward in a vacuum Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Additional in-vacuum explosion force + gravitational acceleration is accelerated vertically downward in a vacuum, and divided into two sets of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increasing power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + In-vacuum explosion + gravity acceleration is added vertically vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) from existing materials Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Add all of the moving blade springs in order to increase the amount of concentrated power generation from the existing lens section to the selected section length lens (2d) by accelerating the vaporization explosion power + gravity acceleration vertically downward in vacuum to increase the sunlight to water (52b) pipe Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Additional in-vacuum force + gravity acceleration is accelerated vertically downward in a vacuum to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation by all the moving blades in series Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal air compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward, split clamp (80B) clamp long lens ( Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in-series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of 2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + add evaporative explosion power + gravity acceleration in vertical direction vertically accelerated, divided into multiple clamps (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages which aim at increase power generation by providing long lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) Internal air compressed heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward to make the selected manufacturing long lens (2d) long from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated downward, from the existing lens cross section to the selected cross-section length lens (2d) sun Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated downward, vacuum a portion of the adiabatic long lens (2d) And various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increasing power generation by maintaining solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress internal heat with compression heat recovery + add vaporizing explosive force + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) clamp by tightening the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Internal heat air compression heat recovery + addition of vaporization explosion power + acceleration of gravity in a vacuum to accelerate vertically downward to divide and set a plurality of long lenses (2d) of tightening (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add internal heat compression heat recovery + add vaporization power + gravity acceleration in a vacuum and accelerate vertically downward to select power from existing materials and increase production power by increasing length lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress the internal air into compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to concentrate the sunlight into the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, and keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air air compression heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the split clamp (80B) tightening long lens (2d) width In order to increase power generation, various energy storage cycle coalescing engines of power generation method provided with in-line all moving blade water turbine and series all moving blade gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to divide, divide and clamp (80B) clamp multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Add heat inside the air in compression heat recovery + vacuum, add vaporization power + gravity acceleration vertically downward, and select series from existing materials aiming to increase power generation by making the selected manufacturing long lens (2d) longer Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to accelerate sunlight from the existing lens cross section with selected cross section lens (2d) water (52b) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to accelerate the vertical direction, the long lens (2d) of the heat insulation in the part close to the vacuum and the sunlight Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress internal heat with compression heat recovery + add vaporizing explosive force + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) clamp by tightening the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Internal heat air compression heat recovery + addition of vaporization explosion power + acceleration of gravity in a vacuum to accelerate vertically downward to divide and set a plurality of long lenses (2d) of tightening (80B) tightening Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add internal heat compression heat recovery + add vaporization power + gravity acceleration in a vacuum and accelerate vertically downward to select power from existing materials and increase production power by increasing length lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress the internal air into compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to concentrate the sunlight into the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, and keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Recovery of air by compression heat recovery + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Increase heat generation by compression heat recovery + add vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat recovery of air + Evaporative detonation force + Gravity acceleration added vertically in vacuum Vertically accelerated downward from existing materials to increase power output with long lens (2d) made from existing materials Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat the air in compression heat recovery + add the vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat recovery of air + Evaporative explosion + addition of gravitational acceleration in a vacuum Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) Compressive heat recovery + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerated downward, split fastener (80B) To increase power generation capacity by increasing the width of the tightening long lens (2d) Various energy conservation cycle combination of power generation method with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle to + solar light heater (2) internal heat (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically in the vacuum, divided vertically and divided A set of multiple long lenses (2d) tightened with accessories (80B) to increase power generation Various energy conservation of the power generation method with multi-stage all-wheels ball-wheel water turbine / series all-wheel ball-wheels gas turbine installed in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downward to select from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) Compressive heat recovery + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward from existing lens cross section Various energy preservation cycles of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) pipe with selected cross section long lens (2d) Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downward and brought close to vacuum Aiming at increasing power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle to increase power generation Various energy conservation of power generation method provided with multistage of all series blade moving wheel water turbine and series all blade moving wheel gas turbine Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum and accelerated vertically downwards, split clamp (80B) clamp long lens ( Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in-series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of 2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add internal heat (28a) with heat pump (1G) in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide and divide multiple clamps (80B) Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages which aim at increase power generation by providing long lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add heat inside the air (28a) with compression heat recovery with heat pump (1G) + add detonation force + gravitational acceleration vertically downward and accelerate the selected material from existing materials vertically to make the long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat the internal air (28a) with a heat pump (1G) + add vaporization power + gravitational acceleration in compression heat recovery + vacuum and accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and adiabatic long lens (2d) at the part brought close to vacuum And various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increasing power generation by maintaining solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate split clamp (80B) tightening Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase power generation by increasing width of long lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and tighten clamp (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to aim at the increase of the power generation amount by providing multiple long lenses (2d) attached.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate selected organic lens from existing materials Long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by making
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate from the existing lens cross section A variety of energy storage cycle coalescence engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are installed in multiple stages aiming to increase the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) and various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine and a series all moving blade gas turbine are installed in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum and accelerated vertically downwards, split clamp (80B) clamp long lens ( Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in-series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of 2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add internal heat (28a) with heat pump (1G) in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide and divide multiple clamps (80B) Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages which aim at increase power generation by providing long lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add heat inside the air (28a) with compression heat recovery with heat pump (1G) + add detonation force + gravitational acceleration vertically downward and accelerate the selected material from existing materials vertically to make the long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat the internal air (28a) with a heat pump (1G) + add vaporization power + gravitational acceleration in compression heat recovery + vacuum and accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and adiabatic long lens (2d) at the part brought close to vacuum And various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increasing power generation by maintaining solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat heat compression (air heat 28a) with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the width of split fastener (80B) and width of long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization and explosion power + additional gravity acceleration is accelerated vertically downward to divide and clamp multiple fasteners (80B) with multiple lenses (2d) Various energy preservation cycle combined engines of the power generation method which provided in series and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward to accelerate vertically downward from existing materials to increase power generation by making selected manufacturing long lens (2d) longer Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward and accelerated vertically downward to make sunlight water with selected cross section lens (2d) from existing lens cross section 52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring vehicle water turbine and a series all moving blade upper wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat the air (28a) with a heat pump (1G) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and sunlight at the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to maintain power generation amount by maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Accelerated by increasing the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation capacity A multistage rotary blade spring wheel water turbine · A serial full rotor blade spring wheel gas turbine was installed in multiple stages Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Accelerating, dividing and installing multiple long lenses (2d) of tightening fasteners (80B) tightening as a set to increase power output Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Various energy preservation cycle combination of the power generation method which installed in series all bucket spring wheel water turbine and series all bucket wing wheel gas turbine in multiple stages aiming at power generation increase by accelerating from the existing materials and making the selected manufacturing long lens (2d) longer. organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Accelerating and setting sunlight to water (52b) pipe with existing lens cross section and selected section lens (2d) to increase concentration of electric power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Accelerate all the blades in series with all moving blade springs, water turbines, and all moving blade gas turbines with multiple blades in order to increase power generation by maintaining the adiabatic long lens (2d) and solar light at right angles near the vacuum by accelerating. Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide fasteners (2) 80B) Various energy conservation cycle coalescing engines of power generation method provided with in-line all moving blade water turbine and in-line all moving blade gas turbine in multiple stages aiming at increasing power generation by increasing the width of the tightening long lens (2d) .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to divide and tighten Various energy preservation cycles of the power generation method which installed in series all moving blade bounce wheel water turbine and in series all moving blade bounce wheel gas turbine in multiple stages to aim at increase of power generation by providing multiple set length lens (2d) tightened by tool (80B) Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward and select from existing lens cross section Various energy conservation cycle combination of the electric power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) tube by long section lens (2d) organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to a part close to the vacuum Various energy conservation cycles of the power generation method that cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbines in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide Aiming at increasing the power generation by increasing the width of the attachment (80B) -fastened long lens (2d) Various energy conservation of the power generation method with multi-stage rotary blade water turbine and series full rotary blade gas turbine arranged in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide Various power generation methods using multi-longitudinal blade moving wheel water turbine / series full moving blade elastic wheel gas turbine installed in multiple stages to aim at increasing power generation by providing multiple long lenses (2d) by tightening fasteners (80B) as a set Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosivity + gravity acceleration in a vacuum add acceleration vertically downward, existing material Various energy preservation cycle combined engines of power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of power generation by making long lens (2d) selected.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, existing lens Various energy of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming to increase the concentrated power generation amount to the water (52b) pipe by selecting sectioned long lens (2d) from cross section Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to vacuum Aiming at increasing power generation by keeping the long lens (2d) of heat insulation near the right angle with the solar light and aiming at the increase of power generation Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide fasteners (2) 80B) Various energy conservation cycle coalescing engines of power generation method provided with in-line all moving blade water turbine and in-line all moving blade gas turbine in multiple stages aiming at increasing power generation by increasing the width of the tightening long lens (2d) .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to divide and tighten Various energy preservation cycles of the power generation method which installed in series all moving blade bounce wheel water turbine and in series all moving blade bounce wheel gas turbine in multiple stages to aim at increase of power generation by providing multiple set length lens (2d) tightened by tool (80B) Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward and select from existing lens cross section Various energy conservation cycle combination of the electric power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) tube by long section lens (2d) organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to a part close to the vacuum Various energy conservation cycles of the power generation method that cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbines in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + accelerate vertically downward to clamp the split fastener (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + gravity acceleration in the vacuum + add vertical acceleration vertically to divide and clamp the fastener (80B) Various energy conservation cycle combined engines of the power generation method which set in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at increase of power generation by setting the tightening multiple length lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to make the selected lens from existing materials Long lens (2d) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by lengthening the
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to select cross section lens from the existing lens cross section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring car water turbine and in series all moving wing spring car gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the water (52b) pipe in 2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to lengthen the heat insulation in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by maintaining lens (2d) and sunlight at right angle vicinity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward In order to increase power generation by increasing the width of the split tightening tool (80B) and tightening long lens (2d), a power generation method is provided in which multiple series moving blade bouncer water turbine and series all moving blade bouncer gas turbine are provided in multiple stages. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward Power generation with multiple series blade moving wheel water turbines and series all blade moving wheel gas turbines installed in multiple stages by dividing and installing multiple long lenses (2d) by tightening fasteners (80B) as a set to increase power generation How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward A variety of energy storage cycle combined engines of power generation method in which a series of all moving blade spring wheel water turbine and a series all moving wing wheel flywheel gas turbine are provided in multiple stages aiming to increase power generation by selecting a long lens (2d) selected from existing materials.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward From the existing lens cross section, select solar power by increasing the amount of concentrated power generation to the water (52b) tube with selected cross-section long lens (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward In order to increase power generation by maintaining the adiabatic long lens (2d) and the sunlight at right angles in the part close to vacuum, power generation with multi-stage series all moving blade water turbine and series all moving blade gas turbine arranged in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate the divided clamp (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase the width of attached long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air with water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and divide it into fasteners (80B 4) A series of all energy saving cycle combined engines of power generation method in which a series full moving blade spring wheel water turbine and a series full moving blade spring wheel gas turbine are provided in multiple stages by aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravitational acceleration in vacuum and accelerate vertically downward to make a selected lens from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation increase by making 2d long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization power + gravity acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from the existing lens cross section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight (2d) pipe in (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in a vacuum + accelerate vertically downward and adiabatic at the part close to vacuum Various energy preservation cycle combined engines of power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation amount by maintaining long lens (2d) and sunlight at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration vertically in vacuum, accelerate vertically downward, split fastener ( 80B) Various energy conservation cycle coalescing engines of power generation method provided with in-line all moving blade water turbine and in-line all moving blade gas turbine in multiple stages aiming at increasing power generation by increasing the width of the tightening long lens (2d) .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp Various energy preservation cycles of the power generation method which installed in series all moving blade bounce wheel water turbine and in series all moving blade bounce wheel gas turbine in multiple stages to aim at increase of power generation by providing multiple set length lens (2d) tightened by tool (80B) Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select from existing materials Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + acceleration of gravity in vacuum vertically downward to select from existing lens cross section Various energy conservation cycle combination of the electric power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) tube by long section lens (2d) organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downwards, part brought close to vacuum Various energy conservation cycles of the power generation method that cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbines in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate the divided clamp (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase the width of attached long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air with water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and divide it into fasteners (80B 4) A series of all energy saving cycle combined engines of power generation method in which a series full moving blade spring wheel water turbine and a series full moving blade spring wheel gas turbine are provided in multiple stages by aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravitational acceleration in vacuum and accelerate vertically downward to make a selected lens from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation increase by making 2d long.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization power + gravity acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from the existing lens cross section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight (2d) pipe in (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in a vacuum + accelerate vertically downward and adiabatic at the part close to vacuum Various energy preservation cycle combined engines of power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation amount by maintaining long lens (2d) and sunlight at right angle vicinity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, long lens with divided clamp (80B) clamp Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and clamp the fastener (80B) Various energy storage cycle coalescing engines of power generation method in which a series full moving blade water turbine and a series full moving blade elastic wheel gas turbine are provided in multiple stages to aim at increasing power generation by providing a plurality of long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make the selected long lens (2d) long from the existing material Various energy preservation cycle combined engine of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from existing lens cross section (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming to increase concentrated power generation amount to the water (52b) pipe of sunlight.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and adiabatic long lens (2d) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increasing power generation by maintaining the solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward In order to increase the power generation capacity by increasing the width of the long lens (2d) tightening the split fastener (80B), a power generation method in which a series of all moving blade bouncer water turbine and a series all moving blade bouncer gas turbine are provided in multiple stages The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward In order to increase power generation by providing a set of multiple long lenses (2d) for tightening and fastening tool (80B) tightening, a series of all moving blade spring wheel water turbine and a series all moving blade spring wheel gas turbine are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward Various energy preservation cycle combined engines of power generation method which installed in series all bucket spring wheel water turbine and in series all bucket wing wheel gas turbine to aim at power generation increase by selecting long lens (2d) selected from existing materials.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward In order to increase the concentrated power generation amount of solar light to the water (52b) tube by selecting the lens section cross section lens (2d) from the existing lens cross section How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle in a part close to vacuum, a series of all moving blade springing wheel water turbine and a series all moving blade springing wheel gas turbine are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward, split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase the width of tightening long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp 80B) Various energy storage cycle coalescing engines of the power generation method in which a series full moving blade spring wheel water turbine and a series full moving blade spring wheel gas turbine are provided in multiple stages aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight by water (52b) tube with lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward and adiabatic at the part close to vacuum Various energy conservation cycle combined engines of power generation method that cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages to aim at increasing power generation by maintaining long lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertical acceleration vertically, split fastener (80B) To increase power generation capacity by increasing the width of the tightening long lens (2d) Various energy conservation cycle combination of power generation method with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add additional vertically downward to divide and clamp A set of multiple long lenses (2d) tightened with accessories (80B) to increase power generation Various energy conservation of the power generation method with multi-stage all-wheels ball-wheel water turbine / series all-wheel ball-wheels gas turbine installed in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward to select from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward from existing lens cross section Various energy preservation cycles of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) pipe with selected cross section long lens (2d) Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward and brought close to vacuum Aiming at increasing power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle to increase power generation Various energy conservation of power generation method provided with multistage of all series blade moving wheel water turbine and series all blade moving wheel gas turbine Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward, split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase the width of tightening long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp 80B) Various energy storage cycle coalescing engines of the power generation method in which a series full moving blade spring wheel water turbine and a series full moving blade spring wheel gas turbine are provided in multiple stages aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select cross-sectional length from existing lens cross-section Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight by water (52b) tube with lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward and adiabatic at the part close to vacuum Various energy conservation cycle combined engines of power generation method that cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages to aim at increasing power generation by maintaining long lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + add vaporization and explosion power + gravity acceleration in vacuum vertically accelerating the divided clamp (80B) by tightening vertically Various energy preservation cycle combined engines of power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + add vaporization and explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and clamp the fastener (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine water turbine and in series all moving blade elastic wheel gas turbine in multiple stages to aim at the increase of power generation by providing multiple long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to make a selected lens from existing materials (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving wheel spring wheel gas turbine in multiple stages aiming at power generation increase as long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + Fuel-injection-combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross-section length lens (2d) from existing lens cross-section The various energy preservation cycle combined engine of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight (water) (52b) pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + fuel-jet burn and burn + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (close to vacuum) 2d) Various energy preservation cycle combined engines of the power generation method in which the series all moving blade water turbine and the series all moving blade elastic wheel gas turbine are provided in multiple stages aiming at increasing power generation by maintaining the sunlight near at right angle.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to right angle + increase the vaporization explosion power maximum with solar light heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating down vertically, split clamp (80B) clamp long lens Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right angle + increase the vaporization explosion power with solar light heater (2) maximum + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating downward, split and clamp (80B) tightening Various energy storage cycle coalescing engines of power generation method in which a series full moving blade water turbine and a series full moving blade elastic wheel gas turbine are provided in multiple stages to aim at increasing power generation by providing a plurality of long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle + increase the vaporization explosive power maximum with solar light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating downward vertically to make a selected manufacturing long lens (2d) long from existing materials Various energy preservation cycle combined engine of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to perpendicular to + increase the vaporization explosive power maximum with solar light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating downwards vertically from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming to increase concentrated power generation amount to the water (52b) pipe of sunlight.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to perpendicular to + increase the vaporization explosion power maximum with solar light heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating downward, vacuum a portion of the adiabatic long lens (2d Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increasing power generation by maintaining the solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and set the multi-length lens (2d) of clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to lengthen selected production long lenses (2d) from existing materials Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power to the maximum + Add the vaporization and explosion power and gravity acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) clamp with the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Evaporative explosion power is maximized by the light heater (2) + evaporation explosion power + gravitational acceleration is added vertically downward in vacuum and divided vertically and divided into multiple clamp lenses (2 d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate downward vertically to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explode force maximum with the light heater (2) + add the vaporization explode force + gravity acceleration in the vacuum vertically vertically downward to make the adiabatic long lens (2d) and the sun light at a right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and set the multi-length lens (2d) of clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to lengthen selected production long lenses (2d) from existing materials Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power to the maximum + Add the vaporization and explosion power and gravity acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Vertically in Vacuum Accelerate Vertically Downwards to Increase Width of Split Lens (80B) Tightening Long Lens (2d) to Increase Power Generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Upward in Vacuum Accelerate Vertically Down, Split and Provide Multiple Length Lenses (2d) with Fasteners (80B) Fastening in Set Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration in Vacuum Vertically Accelerate Downwardly from Existing Materials Select a Long Lens (2d) Made from Existing Materials Aiming at Power Generation Increase Aiming at Increasing Power Generation Capacity of Series All Rotor Blades Spring Water Turbine・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximal Increase + Evaporative Explosive Force + Gravity Acceleration Added Vertically Accelerated Vertically Downwards to Increase Concentrated Power Generation from Existing Lens Cross Section to Water (52b) Tube with Selected Sunlight Lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximal Increase + Evaporative Explosive Force + Gravity Acceleration Added Vertically Downward Accelerated Vertically to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum, and generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Increase in power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) tightening by increasing the vaporization explosion power + gravitational acceleration vertically downward in a vacuum Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Additional in-vacuum explosion force + gravitational acceleration is accelerated vertically downward in a vacuum, and divided into two sets of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increasing power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + In-vacuum explosion + gravity acceleration is added vertically vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) from existing materials Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Add all of the moving blade springs in order to increase the amount of concentrated power generation from the existing lens section to the selected section length lens (2d) by accelerating the vaporization explosion power + gravity acceleration vertically downward in vacuum to increase the sunlight to water (52b) pipe Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Additional in-vacuum force + gravity acceleration is accelerated vertically downward in a vacuum to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation by all the moving blades in series Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Increase in power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) tightening by increasing the vaporization explosion power + gravitational acceleration vertically downward in a vacuum Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Additional in-vacuum explosion force + gravitational acceleration is accelerated vertically downward in a vacuum, and divided into two sets of multiple length lenses (2d) of tightening tool (80B) tightening to aim at increasing power output Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + In-vacuum explosion + gravity acceleration is added vertically vertically downward to accelerate vertically downward to increase power output by selecting a long lens (2d) from existing materials Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Add all of the moving blade springs in order to increase the amount of concentrated power generation from the existing lens section to the selected section length lens (2d) by accelerating the vaporization explosion power + gravity acceleration vertically downward in vacuum to increase the sunlight to water (52b) pipe Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Additional in-vacuum force + gravity acceleration is accelerated vertically downward in a vacuum to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation by all the moving blades in series Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightened by the split clamp (80B), thereby increasing power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and multiple length lenses (2d) tightened to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate downward vertically to increase power output with selected long lens (2d) selected from existing materials Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal air compression heat recovery + vaporization evaporative force + gravitational acceleration is added vertically downward to accelerate the width of the split fastener (80B) tightening the length of the long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to clamp the split fastener (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of long lens (2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in the vacuum add acceleration vertically downward, split Aiming at increasing power generation by increasing the width of the tightening tool (80B) tightening long lens (2d) Various energy of the power generation method in which the series all moving blades water turbine and the series all moving blades gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, split fastener (80B) To increase power generation capacity by increasing the width of the tightening long lens (2d) Various energy conservation cycle combination of power generation method with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, split tightening Various energy conservation cycles of the power generation method that cascaded all moving blade water turbines and all moving blade gas turbines are installed in multiple stages to increase power generation by increasing the width of the long lens (2d) tightened by the tool (80B) Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward, divided into multiple fasteners (80B) clamps (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate and split vertically and divide (80B) Various energy conservation cycle combined engines of the power generation method which set in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at increase of power generation by setting the tightening multiple length lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in the vacuum add acceleration vertically downward, split Power generation method in which a series of all moving blade bounce wheel water turbine and a series all moving blade bounce wheel gas turbine are provided in multiple stages to increase power generation by providing a set of multiple long lenses (2d) by tightening fasteners (80B) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in the vacuum + add evaporative explosion power + gravitational acceleration in the vacuum, accelerate vertically downward, divide and clamp A set of multiple long lenses (2d) tightened with accessories (80B) to increase power generation Various energy conservation of the power generation method with multi-stage all-wheels ball-wheel water turbine / series all-wheel ball-wheels gas turbine installed in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add up vertically downward and divide Various energy of the power generation method provided with a series full moving blade bounce wheel water turbine and a series full moving blade bounce wheel gas turbine provided in multiple stages to aim at increasing power generation by providing a set of multiple fasteners (80B) tightening long lenses (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Add internal heat of air inside in compression heat recovery + vacuum, add vaporization power + gravity acceleration vertically downward, and aim to increase power generation by making selected long lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the selected vertical lens from existing materials (2d Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by lengthening the
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosion power + gravity acceleration in a vacuum add acceleration vertically downward, existing Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at the increase of power generation amount by selecting a long lens (2d) selected from materials.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to select from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward acceleration from existing materials Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at the increase of power generation by making the selected manufacturing long lens (2d) large.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravitational acceleration vertically downward and accelerate sunlight to the existing lens cross section with selected cross section lens (2d) water (52b 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate the cross section lens from the existing lens cross section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring car water turbine and in series all moving wing spring car gas turbine in multiple stages aiming at increase of the concentrated power generation amount to the water (52b) pipe in 2d).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosion power + gravity acceleration in a vacuum add acceleration vertically downward, existing From the lens section to select sunlight from the lens cross section lens (2d) to increase the concentrated power generation amount to the water (52b) pipe Series of all moving blade springing wheel water turbine · Series all moving wing springing wheel Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward, from the existing lens cross section Various energy preservation cycles of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) pipe with selected cross section long lens (2d) Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in a vacuum add acceleration vertically downward, existing lens cross section Various energy conservation of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) pipe with selected cross section long lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is accelerated vertically downward, the long lens (2d) of the heat insulation is perpendicular to the sun at the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward, length of heat insulation in the part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by maintaining lens (2d) and sunlight at right angle vicinity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in a vacuum add acceleration vertically downward, vacuum In order to increase power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle in the vicinity of Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in a vertical direction accelerated vertically downward and brought close to vacuum Aiming at increasing power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle to increase power generation Various energy conservation of power generation method provided with multistage of all series blade moving wheel water turbine and series all blade moving wheel gas turbine Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward and approach vacuum Various energy of the power generation method provided with multi-stage series moving blade water turbine / series full blade moving wheel gas turbine in multistage to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at near right angle with solar light Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically downward in internal air for compression heat recovery + vacuum to accelerate the same water volume and maximum power output Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in vertical direction Accelerate vertically downward to aim at the same water volume maximum power generation total in series Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to the same Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at the maximum amount of water generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward, same water amount maximum power generation Various energy preservation cycle combined engines of power generation method which set in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at quantity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, same amount of water maximum Various energy preservation cycle combined engines of power generation method which set in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at the amount of power generation.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + Add evaporative explosion power + Gravity acceleration in a vacuum Vertically accelerate downwards vertically to select power from existing materials Long objective lens (2d) aiming to increase power output Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the width of the split clamp (80B) tightening long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, divide and clamp multiple fasteners (80B) lens (2d) Various energy preservation cycle combined engines of the power generation method which provided in series and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerated downward from the existing material to increase power generation by making the selected manufacturing long lens (2d) long Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosive power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) 52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring vehicle water turbine and a series all moving blade upper wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in the vacuum vertically accelerated downwards, a long lens (2d) and solar light with thermal insulation in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to maintain power generation amount by maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the width of the long lens (2d) tightening the split clamp (80B) by accelerating vertically downwards by adding the vaporization explosion power + gravitational acceleration in a + sun light heater (2) + vacuum etc. Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Set the multi-long lens (2d) of the clamp (80B) clamp by dividing vertically etc by adding the vaporization explosion power + gravitational acceleration in the vacuum + solar light heater (2) + vacuum vertically downward Various energy preservation cycle combined engines of the power generation method which provided in series and aimed at increase of power generation capacity in series all moving blade water turbine and series all moving blade gas wheel turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Evaporative explosion power + addition of gravity acceleration in a vacuum + solar light heater (2) + vacuum etc. Accelerate vertically downward to make the selected lens (2d) longer from existing materials to increase power output Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add solar light (2) + evaporative explosion power + gravitational acceleration in a vacuum, etc. Add vertical rays vertically downward, and select water from the existing lens cross section (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Evaporative explosion power + gravity acceleration is added vertically downward in a vacuum + solar light (2) + vacuum, etc. in the vacuum and so on, the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to maintain and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the width of the split clamp (80B) tightening long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, divide and clamp multiple fasteners (80B) lens (2d) Various energy preservation cycle combined engines of the power generation method which provided in series and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerated downward from the existing material to increase power generation by making the selected manufacturing long lens (2d) long Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosive power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) 52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring vehicle water turbine and a series all moving blade upper wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in the vacuum vertically accelerated downwards, a long lens (2d) and solar light with thermal insulation in the part close to the vacuum Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to maintain power generation amount by maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + Add evaporative explosion power + Gravity acceleration in a vacuum Vertically accelerate downwards vertically to select power from existing materials Long objective lens (2d) aiming to increase power output Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward and increase the width of the long lens (2d) by tightening the split clamp (80B) to aim at increasing power generation capacity. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide, and install multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power output Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + In vacuum, add evaporative explosion power + add gravity acceleration vertically downward to accelerate power generation with selected long lenses (2d) selected from existing materials. Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Adds vaporization and explosion power + gravity acceleration in vacuum + Vertically accelerates vertically downward, and aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with solar light with selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add the vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum, and aim at increasing power generation Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Add the vaporization explosion power + gravitational acceleration in the left and right up and down + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple clamp lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add solar power (2) + vacuum Add vaporization power + gravity acceleration in the vacuum Vertically accelerate downward vertically to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add sunlight + heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add sunlight and heat (2d) + sunlight in the part close to the vacuum by accelerating the vaporization explosion power + gravitational acceleration vertically downward in + sunlight heater (2) + vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add + Evaporative Explosion Force + Gravity Acceleration in Vacuum + Solar Light Heater (2) + Vacuum Accelerate vertically downward to increase the width of the long lens (2d) clamp on the split clamp (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add + Evaporative Explosion Force + Gravity Acceleration in a Vacuum + Solar Light Heater (2) + Vacuum Accelerate vertically downward and divide and set a multi-long lens (2d) with a clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) + Add the vaporization explosion power + gravitational acceleration in vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing material and aim at increasing power output Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add solar light (2) + evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Make the + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle near the part near the vacuum In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Add the vaporization explosion power + gravitational acceleration in the left and right up and down + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple clamp lenses (2d) Various energy preservation cycle combined engines of the power generation method which set in series and aim at increase of the generation of energy.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add solar power (2) + vacuum Add vaporization power + gravity acceleration in the vacuum Vertically accelerate downward vertically to increase power output by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add sunlight + heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b 3) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the concentrated power generation amount to the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add sunlight and heat (2d) + sunlight in the part close to the vacuum by accelerating the vaporization explosion power + gravitational acceleration vertically downward in + sunlight heater (2) + vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages maintained aiming at power generation amount increase in the vicinity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to increase the width of the long lens (2d) for tightening the split clamp (80B) in series to increase power generation Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + addition of vaporization and explosion power + gravitational acceleration in vacuum + vertical acceleration vertically downward to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + In vacuum, add evaporative explosion power + gravity acceleration vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and aim to increase the amount of power generation Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward, divide it and install multiple long lenses (2d) of tightening tool (80B) tightening in order to increase power generation by series full motion Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Vacuumative detonation force + Additional gravity acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Series of all moving blades aiming to increase the amount of concentrated power generation from the existing lens section to the selected section length lens (2d) by accelerating the vaporization explosion power + gravity acceleration vertically downward and increasing the sunlight to water (52b) pipe from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the series whole moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + In vacuum, add evaporative explosion + gravity acceleration vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increase of power generation Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split and clamp (80B) clamp Various energy storage cycle coalescing engines of power generation method in which a series full moving blade water turbine and a series full moving blade elastic wheel gas turbine are provided in multiple stages to aim at increasing power generation by providing a plurality of long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left upside down + solar light heater (2) internal heat air compression heat recovery + vaporization explosive force + add gravitational acceleration vertically accelerated downward from existing materials selected lens long lens (2d) Various energy preservation cycle combined engine of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select cross section lens from existing lens cross section (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming to increase concentrated power generation amount to the water (52b) pipe of sunlight.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the left and right up and down + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated down, the part near the vacuum heat insulation long lens (2d Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increasing power generation by maintaining the solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion force + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward divided into multiple clamps (80B) tightening lens Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and in series all moving blade elastic wheel gas turbine in multiple stages which aim at increase of power generation by providing (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward from existing materials selected long lens (2d) long power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select sunlight from the existing lens cross section with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion force + add gravity acceleration in the vacuum vertically accelerated downwards to a vacuum near the adiabatic long lens (2d) and the sun Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to maintain the light near the right angle to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split and clamp (80B) clamp Various energy storage cycle coalescing engines of power generation method in which a series full moving blade water turbine and a series full moving blade elastic wheel gas turbine are provided in multiple stages to aim at increasing power generation by providing a plurality of long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left upside down + solar light heater (2) internal heat air compression heat recovery + vaporization explosive force + add gravitational acceleration vertically accelerated downward from existing materials selected lens long lens (2d) Various energy preservation cycle combined engine of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select cross section lens from existing lens cross section (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming to increase concentrated power generation amount to the water (52b) pipe of sunlight.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the left and right up and down + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated down, the part near the vacuum heat insulation long lens (2d Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increasing power generation by maintaining the solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + evaporation in the vacuum + acceleration of gravity acceleration is added vertically downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + acceleration of gravity is added vertically downward to split, split and clamp (80B) clamp multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to make the selected lens (2d) longer from existing materials to increase power output Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravitational acceleration is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section long lens (2 d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravity acceleration is added vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum In order to increase power generation, various energy storage cycle coalescing engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + vaporization evaporative force + gravitational acceleration added vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + vaporization evaporative force + additional gravity acceleration is accelerated vertically downward, divided into multiple fasteners (80B) tightening by providing multiple length lenses (2d) as a set to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air + addition of vaporization and explosion power in a vacuum + acceleration of gravitational acceleration vertically downward to select power from existing materials Long objective lens (2d) aiming to increase power output・ Various energy storage cycle combined engine of the power generation method which provided in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + evaporative explosion power + additional gravitational acceleration accelerated vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air + addition of vaporization and explosion power in vacuum and acceleration of gravity acceleration vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add vaporization explosion force + Gravity acceleration in vacuum Accelerate vertically downward and divide clamp Various energy conservation cycles of the power generation method that cascaded all moving blade water turbines and all moving blade gas turbines are installed in multiple stages to increase power generation by increasing the width of the long lens (2d) tightened by the tool (80B) Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat (28a) inside the heat pump (1G) Compressive heat recovery + Evaporative explosive power + Gravity acceleration is added vertically downward to accelerate split and split Various energy of the power generation method provided with a series full moving blade bounce wheel water turbine and a series full moving blade bounce wheel gas turbine provided in multiple stages to aim at increasing power generation by providing a set of multiple fasteners (80B) tightening long lenses (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + Solar heater (2) Internal heat (28a) with heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravity acceleration added in vacuum vertically accelerated downward from existing materials Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at the increase of power generation by making the selected manufacturing long lens (2d) large.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added in vertical direction accelerated vertically downward, existing lens cross section Various energy conservation of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) pipe with selected cross section long lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the left and right up and down + solar light heater (2) Compress heat recovery with heat pump (1G) + internal heat (1G) + add vaporization explosion power + gravity acceleration in the vacuum Vertically accelerate downward and approach vacuum Various energy of the power generation method provided with multi-stage series moving blade water turbine / series full blade moving wheel gas turbine in multistage to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at near right angle with solar light Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Sunlight Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive Heat Recovery + Evaporative Explosion Force + Gravity Acceleration Added in Vertical Downwards Vertically Downward, Split Fastener (80B) 4) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the width of the fixed long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Sunlight heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and clamp (80B) A set of tightening multiple lenses (2d) is provided as a set to increase power generation Various energy storage cycle combination of power generation method in which series full bucket spring wheel water turbine and series full bucket wing wheel vehicle gas turbine are provided in multiple stages organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration accelerated vertically downward, select manufacturing length from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making lens (2d) long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in a vacuum to accelerate vertically downward, select cross section from existing lens cross section Various energy conservation cycle coalescing engines of the power generation method equipped with in-line all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming to increase the concentrated power generation amount to sunlight by water (52b) tube with long lens (2d) .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + solar light (2) internal heat air (28a) with heat pump (1 G) compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward, in the part close to vacuum Various energy conservation cycle combination of electric power generation method that cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbines in multiple stages aiming at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add vaporization explosion force + Gravity acceleration in vacuum Accelerate vertically downward and divide clamp Various energy conservation cycles of the power generation method that cascaded all moving blade water turbines and all moving blade gas turbines are installed in multiple stages to increase power generation by increasing the width of the long lens (2d) tightened by the tool (80B) Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat (28a) inside the heat pump (1G) Compressive heat recovery + Evaporative explosive power + Gravity acceleration is added vertically downward to accelerate split and split Various energy of the power generation method provided with a series full moving blade bounce wheel water turbine and a series full moving blade bounce wheel gas turbine provided in multiple stages to aim at increasing power generation by providing a set of multiple fasteners (80B) tightening long lenses (2d) Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + Solar heater (2) Internal heat (28a) with heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravity acceleration added in vacuum vertically accelerated downward from existing materials Various energy preservation cycle combined engines of the power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at the increase of power generation by making the selected manufacturing long lens (2d) large.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added in vertical direction accelerated vertically downward, existing lens cross section Various energy conservation of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) pipe with selected cross section long lens (2d) Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the left and right up and down + solar light heater (2) Compress heat recovery with heat pump (1G) + internal heat (1G) + add vaporization explosion power + gravity acceleration in the vacuum Vertically accelerate downward and approach vacuum Various energy of the power generation method provided with multi-stage series moving blade water turbine / series full blade moving wheel gas turbine in multistage to aim at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at near right angle with solar light Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the split clamp (80B) clamp long lens Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + add vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, split and clamp (80B) clamp Various energy storage cycle coalescing engines of power generation method in which a series full moving blade water turbine and a series full moving blade elastic wheel gas turbine are provided in multiple stages to aim at increasing power generation by providing a plurality of long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engine of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving wheel spring wheel gas turbine in multiple stages aiming at increase of power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction accelerated vertically downward and select section length lens (2d) from the existing lens section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming to increase concentrated power generation amount to the water (52b) pipe of sunlight.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Heat recovery of the internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and the adiabatic long lens (2d) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to aim at increasing power generation by maintaining the solar light at right angle vicinity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power in vacuum + acceleration of gravity is added vertically downward to accelerate the split clamp (80B) of the long lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages to increase power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat (28a) compressed heat recovery with heat pump (1G) + vaporization and explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to divide and clamp multiple clamp lenses (80B) Various energy preservation cycle combined engines of the power generation method which provided in series 2 d) as a set and aimed at increase of the power generation amount in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine were provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in vacuum vertically accelerated downward from existing materials to increase power generation by making selected lens (2d) longer Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat the internal air (28a) with a heat pump (1G) + add evaporative explosion power + gravity acceleration in a vacuum + accelerate vertically downward to make the water of sunlight with a cross section lens (2d) from the existing lens cross section (52b) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade spring car water turbine and a series all moving wing spring car gas turbine are provided in multiple stages to increase the concentrated power generation amount to a pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization explosion power + additional gravity acceleration in a vacuum vertically accelerated downward to a vacuum, close to the vacuum a long lens (2d) and sunlight Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at power generation increase maintaining near the right angle.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation capacity by providing in-line all moving blade spring wheel water turbine / series all moving blade spring wheel gas turbine in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) In order to increase power generation by providing a set of multiple long lenses (2d) by dividing and fastening tightening tool (80B) in a row to achieve an increase in power generation capacity Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Various energy saving cycles of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation by selecting long lens (2d) selected from existing materials Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) In order to accelerate the concentrated lens power to increase the amount of concentrated power generation to increase the amount of power generation by increasing the amount of power generation by increasing the amount of solar power with water (52b) pipe from the existing lens cross section Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating to a portion close to vacuum and aiming to increase power generation capacity Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward In order to increase the power generation capacity by increasing the width of the long lens (2d) tightening the split fastener (80B), a power generation method in which a series of all moving blade bouncer water turbine and a series all moving blade bouncer gas turbine are provided in multiple stages The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward In order to increase power generation by providing a set of multiple long lenses (2d) for tightening and fastening tool (80B) tightening, a series of all moving blade spring wheel water turbine and a series all moving blade spring wheel gas turbine are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward Various energy preservation cycle combined engines of power generation method which installed in series all bucket spring wheel water turbine and in series all bucket wing wheel gas turbine to aim at power generation increase by selecting long lens (2d) selected from existing materials.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward In order to increase the concentrated power generation amount of solar light to the water (52b) tube by selecting the lens section cross section lens (2d) from the existing lens cross section How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle in a part close to vacuum, a series of all moving blade springing wheel water turbine and a series all moving blade springing wheel gas turbine are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation capacity by providing in-line all moving blade spring wheel water turbine / series all moving blade spring wheel gas turbine in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) In order to increase power generation by providing a set of multiple long lenses (2d) by dividing and fastening tightening tool (80B) in a row to achieve an increase in power generation capacity Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Various energy saving cycles of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing power generation by selecting long lens (2d) selected from existing materials Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) In order to accelerate the concentrated lens power to increase the amount of concentrated power generation to increase the amount of power generation by increasing the amount of power generation by increasing the amount of solar power with water (52b) pipe from the existing lens cross section Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating to a portion close to vacuum and aiming to increase power generation capacity Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, split fastener (80B) To increase power generation capacity by increasing the width of the tightening long lens (2d) Various energy conservation cycle combination of power generation method with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten A set of multiple long lenses (2d) tightened with accessories (80B) to increase power generation Various energy conservation of the power generation method with multi-stage all-wheels ball-wheel water turbine / series all-wheel ball-wheels gas turbine installed in multiple stages Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) long.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward from the existing lens cross section Various energy preservation cycles of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated electric power generation to water (52b) pipe with selected cross section long lens (2d) Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + evaporative explosive force + additional gravity acceleration in the vacuum and accelerate vertically downward to bring it close to the vacuum Aiming at increasing power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle to increase power generation Various energy conservation of power generation method provided with multistage of all series blade moving wheel water turbine and series all blade moving wheel gas turbine Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to clamp the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase the width of attached long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + gravitational acceleration in the vacuum + add vertical acceleration vertically and divide to divide the fastener (80B 4) A series of all energy saving cycle combined engines of power generation method in which a series full moving blade spring wheel water turbine and a series full moving blade spring wheel gas turbine are provided in multiple stages by aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to make long lens selected from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation increase by making 2d long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to select the selected lens from the existing lens cross section Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight (2d) pipe in (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum vertically and accelerate vertically downward to adiabatic areas near the vacuum Various energy preservation cycle combined engines of power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to maintain power generation amount by maintaining long lens (2d) and sunlight at right angle vicinity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase the power generation capacity by increasing the width of the long lens (2d) tightening the split fastener (80B), a power generation method in which a series of all moving blade bouncer water turbine and a series all moving blade bouncer gas turbine are provided in multiple stages The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase power generation by providing a set of multiple long lenses (2d) for tightening and fastening tool (80B) tightening, a series of all moving blade spring wheel water turbine and a series all moving blade spring wheel gas turbine are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Various energy preservation cycle combined engines of power generation method which installed in series all bucket spring wheel water turbine and in series all bucket wing wheel gas turbine to aim at power generation increase by selecting long lens (2d) selected from existing materials.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase the concentrated power generation amount of solar light to the water (52b) tube by selecting the lens section cross section lens (2d) from the existing lens cross section How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle in a part close to vacuum, a series of all moving blade springing wheel water turbine and a series all moving blade springing wheel gas turbine are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to divide Aiming at increasing power generation by increasing the width of the tightening tool (80B) tightening long lens (2d) Various energy of the power generation method in which the series all moving blades water turbine and the series all moving blades gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to divide Power generation method in which a series of all moving blade bounce wheel water turbine and a series all moving blade bounce wheel gas turbine are provided in multiple stages to increase power generation by providing a set of multiple long lenses (2d) by tightening fasteners (80B) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the existing Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at the increase of power generation amount by selecting a long lens (2d) selected from materials.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the existing From the lens section to select sunlight from the lens cross section lens (2d) to increase the concentrated power generation amount to the water (52b) pipe Series of all moving blade springing wheel water turbine · Series all moving wing springing wheel Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the vacuum In order to increase power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle in the vicinity of Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase the power generation capacity by increasing the width of the long lens (2d) tightening the split fastener (80B), a power generation method in which a series of all moving blade bouncer water turbine and a series all moving blade bouncer gas turbine are provided in multiple stages The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase power generation by providing a set of multiple long lenses (2d) for tightening and fastening tool (80B) tightening, a series of all moving blade spring wheel water turbine and a series all moving blade spring wheel gas turbine are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Various energy preservation cycle combined engines of power generation method which installed in series all bucket spring wheel water turbine and in series all bucket wing wheel gas turbine to aim at power generation increase by selecting long lens (2d) selected from existing materials.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase the concentrated power generation amount of solar light to the water (52b) tube by selecting the lens section cross section lens (2d) from the existing lens cross section How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle in a part close to vacuum, a series of all moving blade springing wheel water turbine and a series all moving blade springing wheel gas turbine are provided in multiple stages. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) + add vaporizing power + gravitational acceleration in vacuum and accelerate vertically downward, divided fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase the width of tightening long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air heat (28b) Add the vaporization explosion power + gravity acceleration in the vacuum + add vacuum acceleration vertically downward, divide and clamp 80B) Various energy storage cycle coalescing engines of the power generation method in which a series full moving blade spring wheel water turbine and a series full moving blade spring wheel gas turbine are provided in multiple stages aiming at increasing power generation by providing a plurality of tightening long lenses (2d) as a set .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) internal air heat compressed air heat (28b) heat the water (52b) in the vacuum + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, to produce a long lens selected from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at power generation increase by lengthening (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the compressed air heat (28b) by the amount of heat of the inside air Heat the water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to select the selected cross section length from the existing lens cross section Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight by water (52b) tube with lens (2d).
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to adiabatic part near the vacuum Various energy conservation cycle combined engines of power generation method that cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages to aim at increasing power generation by maintaining long lens (2d) and sunlight at near right angle .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to lengthen the split clamp (80B) clamp Various energy preservation cycle combined engines of power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and clamp the fastener (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine water turbine and in series all moving blade elastic wheel gas turbine in multiple stages to aim at the increase of power generation by providing multiple long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make the selected production long lens (2d) from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving wheel spring wheel gas turbine in multiple stages aiming at power generation increase as long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to select cross section lens from existing lens cross section (2d) The various energy preservation cycle combined engine of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight (water) (52b) pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravity acceleration in the vacuum + accelerate vertically downward, and adiabatic long lens in the part close to the vacuum ( 2d) Various energy preservation cycle combined engines of the power generation method in which the series all moving blade water turbine and the series all moving blade elastic wheel gas turbine are provided in multiple stages aiming at increasing power generation by maintaining the sunlight near at right angle.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by increasing the width of the split fastener (80B) and the long lens (2d) tightened, power generation is achieved by providing in-line all moving blade spring wheel water turbine and in-line all moving blade spring wheel gas turbine in multiple stages. How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by providing a set of multiple long lenses (2d) for tightening and fastening tool (80B) tightening, install all series blade moving wheel water turbine and series all blade moving wheel gas turbine gas turbine in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum The energy saving cycle coalescing engine of the power generation method which installed in series all bucket spring wheel water turbine and in series all bucket wing wheel gas turbine in multiple stages aiming at the increase in power generation by making the selected long lens (2d) from existing materials longer .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase the amount of concentrated power generation to increase the amount of power generation to the sunlight (52b) tube with the selected lens section cross-section lens (2d) from the existing lens cross-section Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by maintaining the adiabatic long lens (2d) and solar light at right angles in the part close to vacuum, install in-line all moving blade springing car water turbine and in-line all moving wing springing car gas turbine in multiple stages. Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Aiming at increasing power generation by increasing the width of the split fastener (80B) fastening long lens (2d) Various kinds of power generation methods with cascaded all moving blade water turbine and series all moving blade gas turbine in multiple stages Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, A power generation method in which a series of all moving blade springing wheel water turbine and a series all moving blade springing wheel gas turbine are provided in multiple stages in order to increase power generation by providing a set of multiple long lenses (2d) that are divided and tightened (80B). The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making long lens (2d) selected from existing materials long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, From the existing lens section to select solar light with water (52b) pipe with selected cross-section length lens (2d) Aiming at increase of concentrated power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Power generation method with cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbine installed in multiple stages to aim at increasing power generation by maintaining adiabatic long lens (2d) and solar light at right angle in a part close to vacuum The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by increasing the width of the split fastener (80B) and the long lens (2d) tightened, power generation is achieved by providing in-line all moving blade spring wheel water turbine and in-line all moving blade spring wheel gas turbine in multiple stages. How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by providing a set of multiple long lenses (2d) for tightening and fastening tool (80B) tightening, install all series blade moving wheel water turbine and series all blade moving wheel gas turbine gas turbine in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum The energy saving cycle coalescing engine of the power generation method which installed in series all bucket spring wheel water turbine and in series all bucket wing wheel gas turbine in multiple stages aiming at the increase in power generation by making the selected long lens (2d) from existing materials longer .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase the amount of concentrated power generation to increase the amount of power generation to the sunlight (52b) tube with the selected lens section cross-section lens (2d) from the existing lens cross-section Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by maintaining the adiabatic long lens (2d) and solar light at right angles in the part close to vacuum, install in-line all moving blade springing car water turbine and in-line all moving wing springing car gas turbine in multiple stages. Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward, split fastener (80B 4) Various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic wheel gas turbine are provided in multiple stages to increase the width of the fixed long lens (2d) to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp (80B) A set of tightening multiple lenses (2d) is provided as a set to increase power generation Various energy storage cycle combination of power generation method in which series full bucket spring wheel water turbine and series full bucket wing wheel vehicle gas turbine are provided in multiple stages organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward and select manufacturing length from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade water turbine water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at power generation increase by making lens (2d) long.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + Fuel injection and burn it + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward to select cross section from existing lens cross section Various energy conservation cycle coalescing engines of the power generation method equipped with in-line all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming to increase the concentrated power generation amount to sunlight by water (52b) tube with long lens (2d) .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward to the part near the vacuum Various energy conservation cycle combination of electric power generation method that cascaded all moving blade water turbine and series all moving blade elastic wheel gas turbines in multiple stages aiming at increasing power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward to clamp the split fastener (80B) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages to increase power generation by increasing width of long lens (2d).
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward to divide and clamp the fastener (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages to aim at the increase of the power generation amount by providing multiple long lenses (2d) attached.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens made from existing material, long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at power generation amount increase by making
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel-injection-combustion + add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select a lens from the existing lens cross-section A variety of energy storage cycle coalescence engines of the power generation method in which the series all moving blade water turbine and the series all moving blade gas turbine are installed in multiple stages aiming to increase the concentrated power generation amount to the water (52b) pipe.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerating downward, and adiabatic long lens near the vacuum (2d) and various energy conservation cycle combined engines of power generation method in which a series all moving blade water turbine and a series all moving blade gas turbine are installed in multiple stages aiming at increasing power generation by maintaining solar light in the vicinity of a right angle.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosion power maximum with the solar heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating vertically downward, the length of the split clamp (80B) clamp Various energy preservation cycle combined engines of power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of lens (2d).
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosion power with the sun light heater (2) + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, divide and tighten the clamp (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine water turbine and in series all moving blade elastic wheel gas turbine in multiple stages to aim at the increase of power generation by providing multiple long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the left and right up and down + increase the vaporization explosive power with the sun light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating vertically downward, select manufacturing long lens (2d) from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving wheel spring wheel gas turbine in multiple stages aiming at power generation increase as long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosive power maximum with the solar light heater (2) + add the vaporization explosive power + gravitational acceleration in a vacuum, accelerate vertically downward, select cross section lens from the existing lens cross section (2d) The various energy preservation cycle combined engine of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight (water) (52b) pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explode force with the sun light heater (2) + add evaporative explode force + gravitational acceleration in vacuum add vertical acceleration vertically and adiabatic long lens in the part close to vacuum 2d) Various energy preservation cycle combined engines of the power generation method in which the series all moving blade water turbine and the series all moving blade elastic wheel gas turbine are provided in multiple stages aiming at increasing power generation by maintaining the sunlight near at right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum vertically accelerating downward and split clamp (80B) tightening long lens (2d Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages aiming at increasing the width of).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization explosion power maximum with + solar light heater (2) + add the vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, split and clamp multiple lengths of clamp (80B) Various energy storage cycle coalescing engines of power generation method in which series all moving blade water turbine and series all moving blade elastic wheel gas turbine are provided in multiple stages aiming to increase power generation by providing lens (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate vertically downward and select power from existing materials by using a long lens (2d) for power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum vertically accelerate downward vertically and select sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to water (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Increase the vaporization and explosion power at maximum with the solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate vertically downward, and adiabatic long lens (2d) with the part close to the vacuum Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine in multiple stages which aim at increasing power generation by maintaining the sunlight near right angle.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosion power maximum with the solar heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating vertically downward, the length of the split clamp (80B) clamp Various energy preservation cycle combined engines of power generation method which installed series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increasing power generation by increasing the width of lens (2d).
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosion power with the sun light heater (2) + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, divide and tighten the clamp (80B) Various energy conservation cycle combined engines of the power generation method which installed in series all moving blade water turbine water turbine and in series all moving blade elastic wheel gas turbine in multiple stages to aim at the increase of power generation by providing multiple long lenses (2d) as a set.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the left and right up and down + increase the vaporization explosive power with the sun light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating vertically downward, select manufacturing long lens (2d) from existing materials Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade spring wheel water turbine and series all moving wheel spring wheel gas turbine in multiple stages aiming at power generation increase as long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosive power maximum with the solar light heater (2) + add the vaporization explosive power + gravitational acceleration in a vacuum, accelerate vertically downward, select cross section lens from the existing lens cross section (2d) The various energy preservation cycle combined engine of the power generation method which installed in series all moving blade water turbine and series all moving blade elastic wheel gas turbine in multiple stages aiming at increase of concentrated power generation amount to sunlight (water) (52b) pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explode force with the sun light heater (2) + add evaporative explode force + gravitational acceleration in vacuum add vertical acceleration vertically and adiabatic long lens in the part close to vacuum 2d) Various energy preservation cycle combined engines of the power generation method in which the series all moving blade water turbine and the series all moving blade elastic wheel gas turbine are provided in multiple stages aiming at increasing power generation by maintaining the sunlight near at right angle.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the container (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to increase the width of the split lens (80B) clamping long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at increase of electric power generation amount.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided in series and aimed at increase of power generation capacity in series all moving blade water turbine and series all moving blade gas wheel turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravity acceleration is added vertically in vacuum and accelerated vertically downward to make the selected lens (2d) longer from existing materials to increase power output Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is increased to the maximum + the evaporation explosion power + gravitational acceleration is added vertically downward in the vacuum chamber (2) and the sunlight is accelerated by the vertical cross section from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade water turbine and series all moving blade gas turbine in multiple stages aiming at increase of concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the vessel (2) + the vaporization explosion power + gravity acceleration is added vertically downward in vacuum and accelerated vertically downward, and the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade elastic wheel water turbine and series all moving blade elastic wheel gas turbine in multiple stages to maintain and aim at power generation amount increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Increase the power generation amount by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating the vaporization explosion power + gravitational acceleration vertically downward in the maximum + vaporization in the vacuum Various energy preservation cycle combined engines of power generation method which installed in series all moving blade springing car water turbine and series all moving wing moving wheel gas turbine in multiple stages aiming at.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative explosion power maximum increase + Evaporative explosion power + gravitational acceleration is added vertically in a vacuum to accelerate vertically divided, divided into multiple fasteners (80B) tightening by providing multiple lenses (2d) as a set to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Maximum increase in vaporization and explosion power + Addition of vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate downward vertically to increase power output by selecting a long lens (2d) selected from existing materials Various energy conservation cycle combined engines of the power generation method which installed the turbine and series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative explosion power maximum increase + Evaporative explosion power + gravitational acceleration added vertically in vacuum accelerated vertically downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and series all moving blade spring wheel gas turbine aimed at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Upward in Vacuum Accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle near the area near the vacuum to generate electricity Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and in-series all moving wheel spring wheel gas turbine aiming at quantity increase.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic long-length lens (2d) width increase to collect sunlight + vaporization evaporative force + gravity acceleration in vacuum add vertical downward acceleration, split clamp (80B A) Opposed series all moving blade spring wheel water turbine · Opposed series all moving blade spring wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of the tightening long lens (2d) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydropower Solar power Photovoltaic long lens (2d) to increase the width of the solar light collecting method + evaporation in the vacuum + force of gravity + acceleration of gravity add vertically downward, split and clamp (80B) Opposite in-line all moving blade springing wheel water turbine · Opposing in-line all moving wing elastic wheel gas turbine equipped with friction loss reducing means (3) aiming at increasing power generation by providing a set of tightening multiple length lenses (2d) as a set Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation long lens (2d) width increase and collect solar light + add evaporative explosion power + gravity acceleration in vacuum vertically accelerated downward, select manufacturing length from existing materials Various energy conservation of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming to increase power generation by making lens (2d) long Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro aerodynamic power Solar power generating long lens (2d) to increase the width of solar light collecting method + add evaporative explosion power + gravitational acceleration in vacuum vertically accelerated downward, from the existing lens cross section Multi-faced in-line all-blades-impeller wheel water turbine · anti-all-in-place all-blades-impact wheel gas turbine multistage equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to sunlight with water (52b) pipe with long lens (2d) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro aerodynamic power Solar power method of increasing the width of the long lens (2d) to collect sunlight + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, in the part close to the vacuum Counter-series all-blade-impacted car water turbine ・ Opposed-series all-swept-impeller car gas turbine equipped with thermal loss long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight at right angle near Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of long lens (2d) tightening with split fastener (80B) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) for tightening by clamp (80B) tightening as a set Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Counter-series all-wheels ball-wheel water turbine · counter-series all-blade ball-wheels gas turbines equipped with friction loss reduction means (3) aiming to increase power generation by selecting a long lens (2d) selected from existing materials Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase the concentrated power generation to the water (52b) pipe with the selected section long lens (2d) from the existing lens cross section Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and solar light at right angle in a part close to vacuum and facing in-line all Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of long lens (2d) tightening with split fastener (80B) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた狙う各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all moving blade springing wheel water turbine equipped with multiple long lenses (2d) of divided tightening tool (80B) tightening and equipped with friction loss reducing means (3) to increase power generation amount A variety of energy storage cycle coalescing engines with multi-stage gas turbines.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Counter-series all-wheels ball-wheel water turbine · counter-series all-blade ball-wheels gas turbines equipped with friction loss reduction means (3) aiming to increase power generation by selecting a long lens (2d) selected from existing materials Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase the concentrated power generation to the water (52b) pipe with the selected section long lens (2d) from the existing lens cross section Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Opposite in-line all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and solar light at right angle in a part close to vacuum and facing in-line all Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward to increase the width of the split lens clamp (80B) and the length of the long lens (2d) clamped to provide a friction loss reduction means (3) for increasing power output. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward and divided to provide a set of multiple long lenses (2d) by tightening the clamps (80B) for tightening and facing each other with friction loss reduction means (3) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Opposite in-line all moving blade elastic wheel water turbine · face-to-face series equipped with friction loss reduction means (3) aiming to increase power generation by increasing gravity acceleration by adding vertically downward and increasing the selected lens length (2d) from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward, and the opposing lens is equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with sunlight by the selected cross section lens (2d) Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Add gravity acceleration to accelerate vertically downwards, facing the vacuum with the long lens (2d) of heat insulation and friction loss reduction means (3) for maintaining the sunlight at right angle to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) Increase the power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) by accelerating the compression heat recovery + evaporation vaporization power + gravitational acceleration vertically downward in (1 G) + vacuum Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy conservation cycle combination of power generation method provided with opposing series whole blade impacting wheel water turbine / opposing series full operating blade impacting wheel gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount by increasing width organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum A means to reduce friction loss to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosion force + gravitational acceleration in the inside 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward to divide, and provide multiple long lenses (2d) of clamp (80B) clamp as a set to generate electricity Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy conservation of the power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving wing elastic wheel gas turbine provided in multiple stages by providing friction loss reducing means (3) aiming to increase power generation by providing 2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle coalescing engines of the power generation method provided with opposing series all moving blade water turbine and opposing series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aimed at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravitational acceleration vertically downward and accelerating vertically downward from existing materials to make selected lenses (2d) longer Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) Friction heat reduction means (3G) to increase power output by compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum in vertical direction and accelerating vertically downward from the existing material to make the selected long lens (2d) longer. A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Friction loss reduction means aiming at increasing the amount of concentrated power generation by accelerating sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding vaporization explosion power + gravitational acceleration in the inside A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section long lens (2 d) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycles of a power generation method in which opposed series all moving blades water turbine and opposed series all moving blades gas turbine are provided in multiple stages with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages with friction loss reducing means (3) aiming at increase of concentrated power generation amount in the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and the solar light at right angles by accelerating the vaporization explosion power + gravity acceleration downward in the vertical direction and keeping the vacuum close to the vacuum. 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in vacuum, vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum Countermeasures to reduce friction loss by providing opposed series all moving blades water turbines and opposed series all moving blades gas turbines in multiple stages with friction loss reducing means (3) aiming to increase power generation by maintaining A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Energy saving cycle combined engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount maintained by .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Opposite in-line all moving blade resilient wheel water turbine equipped with friction loss reducing means (3) aiming at increasing power generation by accelerating the width of the long lens (2d) by tightening the split fastener (80B) Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Opposite in-line all moving blade resilient wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing multiple sets of long lenses (2d) by accelerating, dividing and fastening (80B) tightening・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Opposite in-line all-blades-impacted wheel water turbine · Opposed-series all-impacted all-wafer-impacted vehicle gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by selecting long lenses (2d) from existing materials An energy storage cycle coalesced engine of various power generation methods, wherein opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided with friction loss reducing means (3) provided in multiple stages provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Opposite in-line all moving blade spring wheel water turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount by accelerating sunlight to water (52b) pipe with selected section lens (2d) from existing lens section Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles To Survive + Solar Heater (2) + Vacuum Add Vaporization Explosion + Gravity Acceleration Vertically Downward Opposite-series all-blades-impeller wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle by accelerating to a portion close to vacuum・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Vaporization explosive force + Gravity acceleration is added in a vacuum Vertically accelerated downward from the existing material and equipped with friction loss reduction means (3) aiming to increase the power output by making the long lens (2d) selected and manufactured Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Friction loss reduction means to increase power generation amount by increasing width of long lens (2d) by adding the detonating force + gravitational acceleration vertically downward in recovery + vacuum and adding vertically downward (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamps in order to increase power generation by friction loss An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downward in Vacuum + Opposite Series with Friction Loss Reduction Means (3) to Increase Power Generation by Lengthening Large Lenses (2d) Selected from Existing Materials Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to reduce the friction loss aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration in the Vacuum + Acceleration vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Vaporization explosive force + Gravity acceleration is added in a vacuum Vertically accelerated downward from the existing material and equipped with friction loss reduction means (3) aiming to increase the power output by making the long lens (2d) selected and manufactured Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Add friction force reduction means (3) for increasing power generation by increasing width of long lens (2d) by adding explosive force + gravitational acceleration vertically downward and increasing the length of split clamp (80B) tightening long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Add frictional force + gravitational acceleration vertically downward and divide it to provide a set of multi-length lenses (2d) for tightening the clamp (80B) to reduce power loss (3) to increase power generation Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Opposite-series all-blades-collimated-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding explosive force + gravitational acceleration vertically downward and making selected lenses (2d) longer from existing materials to increase power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Add friction and force reduction means (3) aiming to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube by adding explosive power + gravitational acceleration vertically downward and using existing lens cross section with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air compression heat recovery + Vaporization in vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to vacuum and aim at increasing power generation by means of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to increase the power output by means of friction loss reduction means (3). Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity The acceleration is accelerated vertically downward, divided, and a plurality of long lenses (2d) of divided fasteners (80B) tightened are provided as a set to have a friction loss reducing means (3) for increasing power generation. Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Accelerating acceleration Accelerating vertically downward, and selecting friction lens (2d) from existing materials to increase power generation with friction loss reduction means (3) to face each other All-in-one all-blades Bumping wheel Water turbine All-opposed in-line Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Acceleration is accelerated vertically downward to accelerate sunlight to the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heater (2) Internal Air Compression Heat Recovery + Evaporative Explosive Force in Vacuum + Gravity Acceleration is accelerated vertically downward, facing in a vacuum, long distance (2d) of adiabatic long lens (2d) and opposing loss in series equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining sunlight at near right angle Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater Including Half Cylinder Outer Box (77B) (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with opposed-series all-blades-impeller-wheel water turbines and opposed-series-all-impeller-impeller-motors gas turbines provided in multiple stages with friction loss reduction means (3) for increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) from existing materials A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposite series all moved impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) The compression heat recovery + vaporization evaporative force + gravity acceleration is added vertically in vacuum and accelerated vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) and friction to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) In compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Heat recovery + vaporization evaporative explosion power + additional gravity acceleration in the vacuum vertically accelerated downward from the existing materials, and equipped with a friction loss reduction means (3) aiming to increase the amount of power generation by lengthening the selected manufacturing long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Add compression heat recovery + vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Evaporative detonation force + add gravity acceleration in a vacuum Accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Friction loss reduction means aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration in the vacuum and adding vertically downward downward 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Add a vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamp to reduce friction loss to increase power generation A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + In vacuum, add evaporative explosion power + add gravity acceleration vertically downward to make the selected lens (2d) longer from the existing material, and have friction loss reduction means (3) to increase power output Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery Friction loss reduction means aiming at increasing the amount of concentrated power generation from the existing lens cross section by accelerating the sunlight vertically to the water (52b) tube from the existing lens cross section (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles to be Heavy + Solar Heater (2) Internal Air (28a) by Heat Pump (1G) Compressive Heat Recovery + Add an evaporative explosive force + Gravity acceleration in a vacuum + Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to reduce the friction loss to increase power generation A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2.) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerating the split fastener (80B) Power generation method with multistage opposed blade all-wheels wheeled water turbines and opposed series all-wheeled bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lenses (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration vertically in the internal air (28a) + vacuum and divide vertically to clamp the fastener (80B) Counter-series all-blades-impeller-wheel water turbine · Counter-series-all-blade-impeller-impeller-motor gas turbines are provided in multi-stages with friction loss reduction means (3) with multiple long lenses (2d) attached as a set to increase power generation. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2.) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically, select long lens from existing material (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation amount by making long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with internal water (28a) with a compressed water heat exchanger (2Y) + Add the vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select a lens of selected cross section from the existing lens cross section (2 d Power generation with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) tube How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed water heat exchanger (2Y) + internal pressure (28a) + evaporative explosion power + add gravity acceleration in a vacuum + accelerate vertically downwards, adiabatic long lens near the vacuum (2d) and friction loss reduction means (3) for maintaining the solar light in the vicinity of a right angle to increase power generation capacity. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy conservation cycle combination of power generation method provided with opposing series whole blade impacting wheel water turbine / opposing series full operating blade impacting wheel gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount by increasing width organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy conservation of the power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving wing elastic wheel gas turbine provided in multiple stages by providing friction loss reducing means (3) aiming to increase power generation by providing 2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycles of a power generation method in which opposed series all moving blades water turbine and opposed series all moving blades gas turbine are provided in multiple stages with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum The energy saving of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the power at near right angle Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy of the power generation method provided with multistage opposed blade all-wheels ball turbine water turbines and opposed series all-blades wheeled wheel gas turbines provided with friction loss reduction means (3) aiming to increase the width of 2d) to increase power generation amount Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) A power generation method provided with opposed lenses in an all-in-line all-wheels-impacted water turbine and anti-all-in-class all-impacted all-wheels-impacted gas turbine in multiple stages equipped with long lenses (2d) and friction loss reducing means (3) for increasing power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various power generation methods provided with multistage opposed all-in-line impellers wheel water turbines and opposed series all-in-line all-blade impellers wheeled gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And a solar power generation method with friction loss reduction means (3) aiming to increase power generation by maintaining the solar power in the vicinity of a right angle. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum and divide vertically to divide and clamp multiple clamp lenses (2d) with clamp (80B) Various energy storage cycle coalescing engines of the power generation method provided with opposing series all moving blade water turbine and opposing series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aimed at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat the water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing material and aim to increase the power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with selected cross section lens (2 d) water (52 b) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages with friction loss reducing means (3) aiming at increase of concentrated power generation amount in the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to make the adiabatic long lens (2d) and sun light nearly perpendicular at the part close to vacuum Energy saving cycle combined engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount maintained by .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing material and aim at increasing the power output 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + solar heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration in a vacuum + accelerate vertically downwards, split clamp (80B) tightening long lens ( Various energy of the power generation method provided with multistage opposed blade all-wheels ball turbine water turbines and opposed series all-blades wheeled wheel gas turbines provided with friction loss reduction means (3) aiming to increase the width of 2d) to increase power generation amount Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to divide and clamp multiple clamps (80B) A power generation method provided with opposed lenses in an all-in-line all-wheels-impacted water turbine and anti-all-in-class all-impacted all-wheels-impacted gas turbine in multiple stages equipped with long lenses (2d) and friction loss reducing means (3) for increasing power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select the sun from the existing lens cross section by the selected cross section lens (2d) Various power generation methods provided with multistage opposed all-in-line impellers wheel water turbines and opposed series all-in-line all-blade impellers wheeled gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and adiabatic long lens (2d) in the part close to vacuum And a solar power generation method with friction loss reduction means (3) aiming to increase power generation by maintaining the solar power in the vicinity of a right angle. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle coalescing engines of the power generation method provided with opposing series all moving blade water turbine and opposing series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aimed at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages with friction loss reducing means (3) aiming at increase of concentrated power generation amount in the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Energy saving cycle combined engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount maintained by .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy conservation cycle combination of power generation method provided with opposing series whole blade impacting wheel water turbine / opposing series full operating blade impacting wheel gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount by increasing width organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation of the power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving wing elastic wheel gas turbine provided in multiple stages by providing friction loss reducing means (3) aiming to increase power generation by providing 2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycles of a power generation method in which opposed series all moving blades water turbine and opposed series all moving blades gas turbine are provided in multiple stages with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum The energy saving of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the power at near right angle Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and set the multiple clamp lenses (2d) of the clamp (80B) tightened as a set Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) 28b) Heat water (52b) in + vacuum and add vaporization and explosion power + gravitational acceleration vertically downward to accelerate the power generation amount by lengthening selected lenses (2d) from existing materials (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to concentrate the sunlight into the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heater (2) (2b) Compressed air heat of internal air heat (2) Heat the water (52b) in 28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Increase the power generation amount by increasing the width of the long lens (2d) by tightening the split clamp (80B) by heating (52b) in + heating and adding the vaporization explosion power + gravitational acceleration vertically downward. An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Increase the power generation by heating (52b) in a heating + vacuum and adding the vaporization explosion power + gravitational acceleration vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamp. Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat (52b) heating + add vaporization explosion force + gravitational acceleration in a vacuum, accelerating vertically downward to make a selected lens from existing materials long lens (2d) aiming to increase the amount of generation of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat Heating (52b) in a heating + vacuum, adding vaporization and explosion power + gravitational acceleration vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with sunlight selected with a cross section lens (2 d) Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Automobiles to be Filled + Sunlight Heater (2) (2b) Water by Compressed Air Heat (28b) of Internal Air Heat (52b) in the heating + vacuum, add the vaporization explosion power + gravity acceleration vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heating water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated down, split lens (80B) clamp long lens Various power generation methods provided with multistage opposed all-in-line rotor ballistic wheel water turbine / opposed series all-in-line all-wheel rotor ballistic wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and tighten clamp (80B) An electric power generation method in which a plurality of opposed series all moving blade springing car water turbines and an opposed series all moving wing elastic wheeled gas turbine are provided in multiple stages equipped with a plurality of long lenses (2d) as a set to provide friction loss reducing means (3) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) B) Heating water (52b) with compressed air heat (28b) + Fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make selected long lenses (2d) from existing materials long Various energy preservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn with combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross section lens from existing lens cross section (2d) An electric power generation method provided with multistage opposed all-in-line rotor ball-spring water turbines and opposite-series all-in-line rotor blade elastic-ball turbine gas turbines provided with friction loss reduction means (3) aiming to increase concentrated power generation amount to sunlight (water tube 52b) pipe Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heater (2) (2b) (2) (2) (2b) 2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (2d) near the vacuum And friction loss reduction means (3) aiming at increasing power generation by maintaining the sunlight at right angles and close to each other, all power generation method including multistage opposed blade all-wheels ball water turbine and opposed series all bladed ball elastic wheels gas turbine The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Energy Storage Cycles of Power Generation Method with Multistage Opposed Series All Rotor Water-Brush Water Turbine and Opposed Series All Rotor Air-Brushed Wheel Gas Turbine Equipped with Friction Loss Reduction Means (3) for Increasing Power Generation Width to Increase Power Generation Capacity Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp (2d) is provided as a set to provide friction loss reduction means (3) aiming at increasing power generation Various energy of the power generation method in which opposing series all moving blade springing car water turbine and opposed series all moving wing moving wheel gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy conservation of the power generation method provided with multistage opposed all-in-line all-wheels wheeled water turbine and all-in-line all-swing all-in-line all-wheels wheeled gas turbine with friction loss reduction means (3) aiming to increase concentrated power generation in water (52b) pipe Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Opposite in-line all-blades-impeller-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining light at right angles and various energy of electric power generation method with multi-stage opposed-in-series all-blade-impeller-wheel gas turbine installed in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) Heating (52b) + fuel injection and combustion + vaporizing explosion power + gravitational acceleration is added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in a vacuum to accelerate vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy storage cycle combining engines of the power generation method provided with opposed-series all-blades-impeller-wheel water turbines and opposed-series-all-impeller-impeller-motors gas turbines provided in multiple stages with friction loss reduction means (3) for increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection and burning + vaporization explosion power + gravitational acceleration added in vacuum vertically accelerated downward from existing materials to reduce power loss to increase power output by making the selected manufacturing long lens (2d) longer A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) Heating (52b) + fuel injection and burning + vaporization evaporative force + gravitational acceleration is added in vacuum and accelerated vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2 d) into a water (52 b) tube Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposite series all moved impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heater (2) (2b) Water with Compressed Air Heat (28b) (52b) heating + fuel injection combustion + vaporization evaporative force + gravity acceleration added in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative explosion + gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative explosion + gravity acceleration is added vertically in a vacuum, and divided vertically to provide a set of multiple long lenses (2d) for tightening (80B) tightening and generating power Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heat loss + Fuel injection combustion + Evaporative explosion + Gravity acceleration in vacuum + Acceleration vertically downward to make the selected lens from existing materials Longer size lens (2d) to increase power output Friction loss reduction means (3) Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative force + gravity acceleration is added vertically in vacuum to accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with the selected section long lens (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydropower Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Equipment + Storage Battery Drive Various Automobiles To Make Fuller + Solar Heater (2) (2b) Compressed Air Heat (28b) Water (52b) Heating + fuel injection combustion + vaporization evaporative force + gravity acceleration added in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the part near the vacuum to generate electricity Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added in vacuum Vertically accelerated downward from the existing material to make the selected lens long lens (2d) aim at increasing the amount of generation of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Evaporation in Solar Heater (2) Including Half-Cylinder Outer Box (77B) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + Increase evaporation + Force in vacuum + Accelerate acceleration vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and reduce friction loss to increase power output A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + add vaporization and explosion power in vacuum + accelerate acceleration vertically downward, split and set multiple length lenses (2d) of tightening tool (80B) tightening to set power to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + vaporization evaporative force + gravitational acceleration in vertical direction vertically accelerated downward to make the selected lens (2d) longer from the existing material, and equipped with friction loss reduction means (3) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + + Evaporative Explosive Force + Add Gravity Acceleration in Vacuum Accelerate acceleration vertically downward and increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with the sunlight with the selected cross section lens (2 d) An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + vaporization evaporative force + add gravity acceleration in a vacuum, accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added in vacuum Vertically accelerated downward from the existing material to make the selected lens long lens (2d) aim at increasing the amount of generation of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Equipped with friction loss reduction means (3) aiming to increase power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically adding the vaporization explosion power + gravity acceleration downward. Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Friction loss reduction means (3) aiming to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically by adding the vaporization explosion power + gravity acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Opposite in-line all-wheels spring wheel water equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravity acceleration vertically downward and making the selected lens (2d) longer from the existing materials Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative explosion power + acceleration of gravity is additionally added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section lens (2d) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Fully electrified residential building + Solar heater (2) to maximize vaporization explosion power + in vacuum Evaporative explosion force + acceleration of gravity by additional vertical acceleration downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to reduce power loss (3) Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated vertically downward to increase the width of the split lens clamp (80B) and the length of the long lens (2d) clamped to provide a friction loss reduction means (3) for increasing power output. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた狙う各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravitational acceleration is accelerated downward vertically and divided into separate clamps (80B) and a plurality of long lenses (2d) for tightening are provided as a set to increase power generation by friction loss reduction means (3) in opposite series A variety of energy storage cycle coalescing engines that aim at all stages of the rotor blade spring wheel water turbine and opposing series all wheel wing spring wheel gas turbines installed in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Opposite in-line all moving blade elastic wheel water turbine · face-to-face series equipped with friction loss reduction means (3) aiming to increase power generation by increasing gravity acceleration by adding vertically downward and increasing the selected lens length (2d) from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Gravity acceleration is accelerated vertically downward, and the opposing lens is equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with sunlight by the selected cross section lens (2d) Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe building equipment method + storage battery drive to make various automobiles flourish + increase of vaporization explosion power maximum by solar heater (2) + vaporization explosion power + in vacuum Add gravity acceleration to accelerate vertically downwards, facing the vacuum with the long lens (2d) of heat insulation and friction loss reduction means (3) for maintaining the sunlight at right angle to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all-blade recoiling wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by accelerating downward and dividing fastener (80B) tightening・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all-wheels ballistic wheel equipped with friction loss reduction means (3) aiming at increasing power generation by providing a set of multiple long lenses (2d) by accelerating downward and dividing and tightening fasteners (80B) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all-blades-impeller wheel water turbine · anti-all-in-line all-rotor vane-impeller car gas equipped with friction loss reduction means (3) aiming to increase power generation by lengthening selected lenses (2d) from existing materials and accelerating downward Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all moving blade spring wheel water equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to accelerate sunlight downward to the water (52b) pipe with sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all-wheels ballistic wheel equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at right angle by accelerating downward and approaching the vacuum A power generation method in which an opposed series all blade impact vehicle water turbine and an opposed series all blade impact ball gas turbine are provided in multiple stages provided with a friction loss reduction means (3) provided with water turbines, opposed series all blade impact ball gas turbines provided in multiple stages. The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all-blade recoiling wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by accelerating downward and dividing fastener (80B) tightening・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all-wheels ballistic wheel equipped with friction loss reduction means (3) aiming at increasing power generation by providing a set of multiple long lenses (2d) by accelerating downward and dividing and tightening fasteners (80B) Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all-blades-impeller wheel water turbine · anti-all-in-line all-rotor vane-impeller car gas equipped with friction loss reduction means (3) aiming to increase power generation by lengthening selected lenses (2d) from existing materials and accelerating downward Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all moving blade spring wheel water equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to accelerate sunlight downward to the water (52b) pipe with sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Water Surface Levitation Type Solar Heater (2) + Evaporative Explosion Force + Add Gravity Acceleration in Vacuum Vertical Opposite in-line all-wheels ballistic wheel equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at right angle by accelerating downward and approaching the vacuum Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Add friction force reduction means (3) for increasing power generation by increasing width of long lens (2d) by adding explosive force + gravitational acceleration vertically downward and increasing the length of split clamp (80B) tightening long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Add frictional force + gravitational acceleration vertically downward and divide it to provide a set of multi-length lenses (2d) for tightening the clamp (80B) to reduce power loss (3) to increase power generation Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Opposite-series all-blades-collimated-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding explosive force + gravitational acceleration vertically downward and making selected lenses (2d) longer from existing materials to increase power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Add friction and force reduction means (3) aiming to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube by adding explosive power + gravitational acceleration vertically downward and using existing lens cross section with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydrothermal power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various vessels lively + water surface floating type solar heater (2) + vaporization in vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to vacuum and aim at increasing power generation by means of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Friction loss reduction means to increase power generation amount by increasing width of long lens (2d) by adding the detonating force + gravitational acceleration vertically downward in recovery + vacuum and adding vertically downward (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy of the power generation method provided with multistage opposed blade all-wheels ball turbine water turbines and opposed series all-blades wheeled wheel gas turbines provided with friction loss reduction means (3) aiming to increase the width of 2d) to increase power generation amount Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy conservation cycle combination of power generation method provided with opposing series whole blade impacting wheel water turbine / opposing series full operating blade impacting wheel gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount by increasing width organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Energy Storage Cycles of Power Generation Method with Multistage Opposed Series All Rotor Water-Brush Water Turbine and Opposed Series All Rotor Air-Brushed Wheel Gas Turbine Equipped with Friction Loss Reduction Means (3) for Increasing Power Generation Width to Increase Power Generation Capacity Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamps in order to increase power generation by friction loss An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with opposed-series all-blades-impeller-wheel water turbines and opposed-series-all-impeller-impeller-motors gas turbines provided in multiple stages with friction loss reduction means (3) for increasing power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) A power generation method provided with opposed lenses in an all-in-line all-wheels-impacted water turbine and anti-all-in-class all-impacted all-wheels-impacted gas turbine in multiple stages equipped with long lenses (2d) and friction loss reducing means (3) for increasing power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation of the power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving wing elastic wheel gas turbine provided in multiple stages by providing friction loss reducing means (3) aiming to increase power generation by providing 2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp (2d) is provided as a set to provide friction loss reduction means (3) aiming at increasing power generation Various energy of the power generation method in which opposing series all moving blade springing car water turbine and opposed series all moving wing moving wheel gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downward in Vacuum + Opposite Series with Friction Loss Reduction Means (3) to Increase Power Generation by Lengthening Large Lenses (2d) Selected from Existing Materials Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) Heat compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) from existing materials A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to reduce the friction loss aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposite series all moved impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various power generation methods provided with multistage opposed all-in-line impellers wheel water turbines and opposed series all-in-line all-blade impellers wheeled gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycles of a power generation method in which opposed series all moving blades water turbine and opposed series all moving blades gas turbine are provided in multiple stages with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy conservation of the power generation method provided with multistage opposed all-in-line all-wheels wheeled water turbine and all-in-line all-swing all-in-line all-wheels wheeled gas turbine with friction loss reduction means (3) aiming to increase concentrated power generation in water (52b) pipe Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosive Force + Gravity Acceleration in the Vacuum + Acceleration vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And a solar power generation method with friction loss reduction means (3) aiming to increase power generation by maintaining the solar power in the vicinity of a right angle. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum The energy saving of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the power at near right angle Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Opposite in-line all-blades-impeller-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining light at right angles and various energy of electric power generation method with multi-stage opposed-in-series all-blade-impeller-wheel gas turbine installed in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery device (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air compression heat Recovery + Evaporative Explosion Force + Gravity Acceleration in the Vacuum + Acceleration Vertically Downwards to Achieve the Same Water Amount Maximum Power Generation Counter-Series All-Robot-Bumping Wheel Water Turbine Equipped with Friction Loss Reduction Means (3) · Counter-Series Total-Actual Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) internal air (28a) Heat recovery by heat pump (1G) + Evaporative detonation force + add gravity acceleration in vacuum by accelerating vertically downward to achieve the same water volume maximum power generation Counter loss series movement equipped with friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to achieve the same water volume maximum power generation means (3) A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating solar heater (2) (2b) internal air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to achieve the same water volume maximum power generation with friction loss reduction means (3) Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery system (2C) superheated steam thermal energy (52d) production method + storage battery drive to make various ships lively + water surface floating type solar heater (2) (2b) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerating vertically downwards to achieve the same water volume maximum power generation friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B), and has a friction loss reduction means (3) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is accelerated vertically downward and divided into a plurality of long lenses (2d) of tightening (80B) tightening by setting a set of friction loss reducing means (3) aiming to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration Add vertical acceleration vertically downwards, and select friction lens (2d) from existing materials to increase power generation. Friction loss reduction means (3) equipped with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration is added vertically downward to accelerate the concentrated light from the existing lens cross section to the water (52b) tube with selected sun lens (2d), equipped with friction loss reduction means (3) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blade Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase by 1200m head + surface floating type solar heater (2) + vaporization explosion in vacuum Force + Gravity acceleration added Vertically accelerated downwards, and equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to reduce the friction loss to increase power generation A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward, divide and set a plurality of long lenses (2d) of tightening (80B) tightening to aim at increasing power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add an evaporative explosion power + gravity acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) from the existing material longer and have a friction loss reduction means (3) to increase power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by the selected cross section lens (2 d) An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Half-Surface Outer Housing (77B) Including Surface Floating Type Solar Heater ( 2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum and aim at increasing power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) A means to reduce friction loss to increase power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration downward in the vacuum and adding vertically downward. A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) A means to reduce friction loss to increase power generation by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosive force + gravitational acceleration in vacuum. (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) Opposite in-line total motion equipped with friction loss reduction means (3) aiming to increase power output by accelerating vaporization explosion power + gravitational acceleration vertically downward in vacuum to make selected lenses (2d) longer from existing materials Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) A means to reduce friction loss to increase the concentrated power generation amount by accelerating sunlight to the water (52b) tube from the existing lens cross section by adding vertically downward the vaporization explosion power + gravitational acceleration in a vacuum 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeated use of water-condensed water turbine + Solar heat augmentation suspension bridge (2b) surfacing type solar surface heater etc (2b) A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating the vaporization explosion power + gravity acceleration downward in a vacuum and adding vertically downward. (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to reduce the friction loss to increase power generation A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward, divide and set a plurality of long lenses (2d) of tightening (80B) tightening to aim at increasing power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add an evaporative explosion power + gravity acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) from the existing material longer and have a friction loss reduction means (3) to increase power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by the selected cross section lens (2 d) An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation Equipment Repeatedly Used Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) 2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum and aim at increasing power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation by facing loss series (friction loss reduction means (3)) Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is added vertically accelerated downward and divided into a plurality of long lenses (2d) of tightening (80B) tightening by setting a set of friction loss reducing means (3) aiming to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward, and a selection loss lens (2d) made from existing materials is made longer to increase power generation. Opposed series all moving blade spring wheel water turbine equipped with friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward, and the existing lens cross section is equipped with friction loss reduction means (3) aiming to increase the concentrated power generation to the water (52b) tube with sunlight by the selected cross section lens (2d) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified housing + Water surface floating type solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration added Vertically accelerated downwards, equipped with adiabatic long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight at a right angle in a part close to vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite in-line all-wheels bounce wheel equipped with friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by accelerating vertically downward and increasing the width of the split clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite series total motion equipped with friction loss reduction means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) to accelerate by adding vertically downward and divide and tighten fasteners (80B) Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite in-line all moving blades Bumping wheel water turbine · Opposed in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power output by accelerating vertically downward to make selected lenses (2d) longer from existing materials Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum Opposite in-line all moving blades equipped with friction loss reduction means (3) for accelerating sunlight downward to the water (52b) pipe from the existing lens cross section with selected cross section lens (2d) by accelerating vertically downward further Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Type Solar Heater (2) + Evaporative Explosion Force + Gravity Acceleration in Vacuum An additional in-line total motion equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating vertically downward further and approaching a vacuum at a portion close to vacuum Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add a vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to reduce power loss (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide, and provide multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power generation by friction loss An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Opposite series equipped with friction loss reduction means (3) aiming to increase power output by accelerating the vaporization explosion power + gravity acceleration vertically downward in + + vertical direction to make the selected lens (2d) longer from the existing materials Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add a vaporization explode + gravity acceleration in vacuum + accelerate vertically downward and aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube by selecting sunlight with the selected cross section lens (2 d) A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) + Add the vaporization exploding force + gravity acceleration in vacuum + accelerate vertically downward and keep the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum A means to reduce friction loss to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosion force + gravitational acceleration in the inside 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravitational acceleration vertically downward and accelerating vertically downward from existing materials to make selected lenses (2d) longer Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum Friction loss reduction means aiming at increasing the amount of concentrated power generation by accelerating sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding vaporization explosion power + gravitational acceleration in the inside A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) + Vacuum A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and the solar light at right angles by accelerating the vaporization explosion power + gravity acceleration downward in the vertical direction and keeping the vacuum close to the vacuum. 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add a vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to reduce power loss (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide, and provide multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power generation by friction loss An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Opposite series equipped with friction loss reduction means (3) aiming to increase power output by accelerating the vaporization explosion power + gravity acceleration vertically downward in + + vertical direction to make the selected lens (2d) longer from the existing materials Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add a vaporization explode + gravity acceleration in vacuum + accelerate vertically downward and aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube by selecting sunlight with the selected cross section lens (2 d) A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) + Add the vaporization exploding force + gravity acceleration in vacuum + accelerate vertically downward and keep the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward to increase the width of the split lens clamp (80B) and the length of the long lens (2d) clamped to provide a friction loss reduction means (3) for increasing power output. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward and divided to provide a set of multiple long lenses (2d) by tightening the clamps (80B) for tightening and facing each other with friction loss reduction means (3) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Opposite in-line all moving blade elastic wheel water turbine · face-to-face series equipped with friction loss reduction means (3) aiming to increase power generation by increasing gravity acceleration by adding vertically downward and increasing the selected lens length (2d) from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Gravity acceleration is accelerated vertically downward, and the opposing lens is equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with sunlight by the selected cross section lens (2d) Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) + Evaporative explosion in vacuum + Add gravity acceleration to accelerate vertically downwards, facing the vacuum with the long lens (2d) of heat insulation and friction loss reduction means (3) for maintaining the sunlight at right angle to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Opposite in-line all moving blade spring wheel water equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) tightening the divided clamp (80B) by accelerating vertically downward Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming at increasing power generation by providing a set of multiple long lenses (2d) by accelerating vertically downward and dividing and tightening fasteners (80B) Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Opposite Series All Blades Bumping Wheel Water Turbine · Counter Series All Blades Bumping Wheel equipped with friction loss reduction means (3) aiming to increase power output by accelerating vertically downward and making long lenses of a selected production long lens (2d) from existing materials Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Opposite in-line all-wheels ballistic wheel equipped with friction loss reduction means (3) for accelerating sunlight downward to the water (52b) pipe by accelerating sunlight downward to the water (52b) tube with the selected lens section (2d) from the existing lens section Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling piping building method + storage battery drive various motor vehicles to make up + water surface floating type solar heater (2) + add vaporization explosion power + gravity acceleration in vacuum Opposite series all moving blades equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle by accelerating vertically downward to a portion close to vacuum Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Increase the amount of power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating the internal air in compression heat recovery + vacuum and vaporization explosion power + gravitational acceleration vertically downward. Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Generate internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide, divide and set multiple long lenses (2d) of clamp (80B) clamp to generate electricity Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 3) Friction heat reduction means to increase power output by compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum in vertical direction and accelerating vertically downward from the existing material to make the selected long lens (2d) longer. A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air in compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Vaporization explosive force + Gravity acceleration is added in a vacuum Vertically accelerated downward from the existing material and equipped with friction loss reduction means (3) aiming to increase the power output by making the long lens (2d) selected and manufactured Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Increase the amount of power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating the internal air in compression heat recovery + vacuum and vaporization explosion power + gravitational acceleration vertically downward. Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Generate internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide, divide and set multiple long lenses (2d) of clamp (80B) clamp to generate electricity Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 3) Friction heat reduction means to increase power output by compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum in vertical direction and accelerating vertically downward from the existing material to make the selected long lens (2d) longer. A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air in compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and the sun light in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum A means to reduce friction loss to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosion force + gravitational acceleration in the inside 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravitational acceleration vertically downward and accelerating vertically downward from existing materials to make selected lenses (2d) longer Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum Friction loss reduction means aiming at increasing the amount of concentrated power generation by accelerating sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding vaporization explosion power + gravitational acceleration in the inside A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Method for superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) Internal air compression heat recovery + Vacuum A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and the solar light at right angles by accelerating the vaporization explosion power + gravity acceleration downward in the vertical direction and keeping the vacuum close to the vacuum. 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is accelerated vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B), and has a friction loss reduction means (3) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is accelerated vertically downward and divided into a plurality of long lenses (2d) of tightening (80B) tightening by setting a set of friction loss reducing means (3) aiming to increase power generation Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration Add vertical acceleration vertically downwards, and select friction lens (2d) from existing materials to increase power generation. Friction loss reduction means (3) equipped with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration is added vertically downward to accelerate the concentrated light from the existing lens cross section to the water (52b) tube with selected sun lens (2d), equipped with friction loss reduction means (3) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Floating Solar Heater (2) Internal Air Compression Heat Recovery + Vaporization Explosion in Vacuum Force + Gravity acceleration added Vertically accelerated downwards, and equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at right angle near the vacuum Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation force + gravitational acceleration under compression heat recovery + vacuum and accelerate vertically downward, and the split fastener (80B) clamp long lens (2d) Energy Storage Cycles of Power Generation Method with Multistage Opposed Series All Rotor Water-Brush Water Turbine and Opposed Series All Rotor Air-Brushed Wheel Gas Turbine Equipped with Friction Loss Reduction Means (3) for Increasing Power Generation Width to Increase Power Generation Capacity Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Multiple heats of internal air (28a) by heat pump (1G), compression heat recovery + vaporization and explosion power + additional gravity acceleration is added vertically downward to divide and clamp (80B) clamp (2d) is provided as a set to provide friction loss reduction means (3) aiming at increasing power generation Various energy of the power generation method in which opposing series all moving blade springing car water turbine and opposed series all moving wing moving wheel gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + vacuum in a vacuum, add vaporization power + gravity acceleration vertically downward to make the selected lens from existing materials long enough to generate power Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + in a vacuum add vaporization power + gravitational acceleration accelerate vertically downward and select sunlight from cross section of existing lens with selected cross section lens (2d) Various energy conservation of the power generation method provided with multistage opposed all-in-line all-wheels wheeled water turbine and all-in-line all-swing all-in-line all-wheels wheeled gas turbine with friction loss reduction means (3) aiming to increase concentrated power generation in water (52b) pipe Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation power + gravitational acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and the sun at the part close to vacuum Opposite in-line all-blades-impeller-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining light at right angles and various energy of electric power generation method with multi-stage opposed-in-series all-blade-impeller-wheel gas turbine installed in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Full-power Facility Method Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) Internal Air (2) Inside Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation force + gravitational acceleration under compression heat recovery + vacuum and accelerate vertically downward, and the split fastener (80B) clamp long lens (2d) Energy Storage Cycles of Power Generation Method with Multistage Opposed Series All Rotor Water-Brush Water Turbine and Opposed Series All Rotor Air-Brushed Wheel Gas Turbine Equipped with Friction Loss Reduction Means (3) for Increasing Power Generation Width to Increase Power Generation Capacity Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Multiple heats of internal air (28a) by heat pump (1G), compression heat recovery + vaporization and explosion power + additional gravity acceleration is added vertically downward to divide and clamp (80B) clamp Various energy storage cycle united engines, which are provided with (2d) as a set to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + vacuum in a vacuum, add vaporization power + gravity acceleration vertically downward to make the selected lens from existing materials long enough to generate power Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the internal air (28a) with heat pump (1G) in compression heat recovery + in a vacuum add vaporization power + gravitational acceleration accelerate vertically downward and select sunlight from cross section of existing lens with selected cross section lens (2d) Various energy conservation of the power generation method provided with multistage opposed all-in-line all-wheels wheeled water turbine and all-in-line all-swing all-in-line all-wheels wheeled gas turbine with friction loss reduction means (3) aiming to increase concentrated power generation in water (52b) pipe Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 2.) Heat the internal air (28a) with a heat pump (1G) + add evaporative detonation power + gravitational acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and the sun at the part close to vacuum Opposite in-line all-blades-impeller-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining light at right angles and various energy of electric power generation method with multi-stage opposed-in-series all-blade-impeller-wheel gas turbine installed in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) Increase the power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) by accelerating the compression heat recovery + evaporation vaporization power + gravitational acceleration vertically downward in (1 G) + vacuum Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward to divide, and provide multiple long lenses (2d) of clamp (80B) clamp as a set to generate electricity Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) Friction heat reduction means (3G) to increase power output by compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum in vertical direction and accelerating vertically downward from the existing material to make the selected long lens (2d) longer. A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section long lens (2 d) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) Heat pump internal air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in vacuum, vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Frictional loss to increase power generation by increasing width of long lens (2d) by adding compression heat recovery + evaporation detonation force + gravity acceleration in vertical direction and adding vertically downward. An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + addition of vaporization and explosion power + gravity acceleration in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of tightening (80B) tightening to aim at increasing power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + addition of vaporization and explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, and equipped with a friction loss reduction means (3) aiming to increase the amount of power generation by making the selected lens (2d) longer from existing materials Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Friction heat recovery + vaporization evaporative force + gravity acceleration is added vertically in a vacuum and accelerated vertically downward to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by the selected cross section lens (2 d) An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling and Cooling Piping Buildings + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive heat recovery + Add evaporative explosive power + Gravity acceleration in a vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) + internal pressure of the air (28b) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum to accelerate the split fastener (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposed-series all-blade-impeller all-impact wheel gas turbine is provided in multiple stages equipped with friction loss reduction means (3) to increase the width of the tightening long lens (2d) to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the fastener ( 80B) Opposite in-line all-blade-impact wheel water turbine · Opposed-series all-impact all blade spring-impact vehicle gas turbine equipped with a plurality of tightening long lenses (2d) as a set to provide friction loss reduction means (3) to increase power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy storage cycles of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines provided with friction loss reduction means (3) aiming to increase power generation by making (2d) longer Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward, select cross-sectional length from existing lens cross-section Opposite in-line all-wheels bounce wheel water turbine · face-to-face all-in-roll all-wheels bounce wheel gas turbine with multiple stages of friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) tube with lens (2d) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal heat (28a) in the vacuum + add vaporizing explosion power + gravity acceleration in the vacuum vertically accelerating downward and heat insulation in the part close to the vacuum Longitudinal Series All Rotor Water-Brushing Car Water Turbine · Opposing Series All Rotor Air-Brushing Wheel Gas Turbine Multistage Equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the long lens (2d) and sunlight at right angle near Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2.) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerating the split fastener (80B) Power generation method with multistage opposed blade all-wheels wheeled water turbines and opposed series all-wheeled bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lenses (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration vertically in the internal air (28a) + vacuum and divide vertically to clamp the fastener (80B) Counter-series all-blades-impeller-wheel water turbine · Counter-series-all-blade-impeller-impeller-motor gas turbines are provided in multi-stages with friction loss reduction means (3) with multiple long lenses (2d) attached as a set to increase power generation. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2.) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically, select long lens from existing material (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation amount by making long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with internal water (28a) with a compressed water heat exchanger (2Y) + Add the vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select a lens of selected cross section from the existing lens cross section (2 d Power generation with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) tube How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed water heat exchanger (2Y) + internal pressure (28a) + evaporative explosion power + add gravity acceleration in a vacuum + accelerate vertically downwards, adiabatic long lens near the vacuum (2d) and friction loss reduction means (3) for maintaining the solar light in the vicinity of a right angle to increase power generation capacity. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) + internal pressure of the air (28b) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum to accelerate the split fastener (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposed-series all-blade-impeller all-impact wheel gas turbine is provided in multiple stages equipped with friction loss reduction means (3) to increase the width of the tightening long lens (2d) to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the fastener ( 80B) Opposite in-line all-blade-impact wheel water turbine · Opposed-series all-impact all blade spring-impact vehicle gas turbine equipped with a plurality of tightening long lenses (2d) as a set to provide friction loss reduction means (3) to increase power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy storage cycles of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines provided with friction loss reduction means (3) aiming to increase power generation by making (2d) longer Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward, select cross-sectional length from existing lens cross-section Opposite in-line all-wheels bounce wheel water turbine · face-to-face all-in-roll all-wheels bounce wheel gas turbine with multiple stages of friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) tube with lens (2d) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal heat (28a) in the vacuum + add vaporizing explosion power + gravity acceleration in the vacuum vertically accelerating downward and heat insulation in the part close to the vacuum Longitudinal Series All Rotor Water-Brushing Car Water Turbine · Opposing Series All Rotor Air-Brushing Wheel Gas Turbine Multistage Equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the long lens (2d) and sunlight at right angle near Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy conservation cycle combination of power generation method provided with opposing series whole blade impacting wheel water turbine / opposing series full operating blade impacting wheel gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount by increasing width organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy conservation of the power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving wing elastic wheel gas turbine provided in multiple stages by providing friction loss reducing means (3) aiming to increase power generation by providing 2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycles of a power generation method in which opposed series all moving blades water turbine and opposed series all moving blades gas turbine are provided in multiple stages with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum The energy saving of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the power at near right angle Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with the opposed series all moving blades water turbine and the opposite series all moved impeller gas turbines provided in multiple stages and equipped with friction loss reducing means (3) for increasing power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the exchange machine (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to make the selected lens from the existing material longer, and increase the output by increasing friction An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward to select sunlight from cross section of existing lens with water (52b) pipe with water (52b) tube Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and in the part close to vacuum, adiabatic long lens (2d) and sunlight at right angle Various energy conservation cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposed series all moving blade elastic car gas turbines provided with friction loss reducing means (3) for maintaining power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive force + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Power generation method with multistage opposed blade all-wheels wheeled water turbines and opposed series all-wheeled bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lenses (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) Counter-series all-blades-impeller-wheel water turbine · Counter-series-all-blade-impeller-impeller-motor gas turbines are provided in multi-stages with friction loss reduction means (3) with multiple long lenses (2d) attached as a set to increase power generation. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum, accelerate vertically downward, select lens made from existing material, long lens (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation amount by making long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from cross section of existing lens (2d Power generation with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) tube How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum + accelerate vertically downward and adiabatic long lens near the vacuum (2d) and friction loss reduction means (3) for maintaining the solar light in the vicinity of a right angle to increase power generation capacity. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration in a vacuum + accelerate vertically downwards, split clamp (80B) tightening long lens ( Various energy of the power generation method provided with multistage opposed blade all-wheels ball turbine water turbines and opposed series all-blades wheeled wheel gas turbines provided with friction loss reduction means (3) aiming to increase the width of 2d) to increase power generation amount Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to divide and clamp multiple clamps (80B) A power generation method provided with opposed lenses in an all-in-line all-wheels-impacted water turbine and anti-all-in-class all-impacted all-wheels-impacted gas turbine in multiple stages equipped with long lenses (2d) and friction loss reducing means (3) for increasing power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select the sun from the existing lens cross section by the selected cross section lens (2d) Various power generation methods provided with multistage opposed all-in-line impellers wheel water turbines and opposed series all-in-line all-blade impellers wheeled gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and adiabatic long lens (2d) in the part close to vacuum And a solar power generation method with friction loss reduction means (3) aiming to increase power generation by maintaining the solar power in the vicinity of a right angle. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive force + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Power generation method with multistage opposed blade all-wheels wheeled water turbines and opposed series all-wheeled bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lenses (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) Counter-series all-blades-impeller-wheel water turbine · Counter-series-all-blade-impeller-impeller-motor gas turbines are provided in multi-stages with friction loss reduction means (3) with multiple long lenses (2d) attached as a set to increase power generation. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum, accelerate vertically downward, select lens made from existing material, long lens (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation amount by making long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from cross section of existing lens (2d Power generation with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) tube How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum + accelerate vertically downward and adiabatic long lens near the vacuum (2d) and friction loss reduction means (3) for maintaining the solar light in the vicinity of a right angle to increase power generation capacity. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle coalescing engines of the power generation method provided with opposing series all moving blade water turbine and opposing series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aimed at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages with friction loss reducing means (3) aiming at increase of concentrated power generation amount in the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface levitation type solar heater (2) (2b) Internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Energy saving cycle combined engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount maintained by .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing material and aim at increasing the power output 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Power generation with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lens (2d) How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, divide and clamp (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposite-series-all mover wing-impeller-motor gas turbines are provided in multiple stages with friction loss reduction means (3) equipped with multiple tightening length lenses (2d) as a set to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials (2d) Various energy conservation cycle coalescing engines of the power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation amount by lengthening .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens from selected lens cross section In 2d), opposing series whole blade flipping car water turbine and opposing series whole blade flipping car gas turbine are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe in sunlight Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward vertically to lengthen the heat insulation in the part close to vacuum Opposite in-line all-blades-impacted water turbine · Opposed-series all-impacted fully moving-vane-wheeled gas turbines are provided in multiple stages with a lens (2d) and friction loss reduction means (3) aiming at increasing power generation by maintaining sunlight at near right angles Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heating water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated down, split lens (80B) clamp long lens Various power generation methods provided with multistage opposed all-in-line rotor ballistic wheel water turbine / opposed series all-in-line all-wheel rotor ballistic wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and tighten clamp (80B) An electric power generation method in which a plurality of opposed series all moving blade springing car water turbines and an opposed series all moving wing elastic wheeled gas turbine are provided in multiple stages equipped with a plurality of long lenses (2d) as a set to provide friction loss reducing means (3) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) B) Heating water (52b) with compressed air heat (28b) + Fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make selected long lenses (2d) from existing materials long Various energy preservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) ) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn with combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross section lens from existing lens cross section (2d) An electric power generation method provided with multistage opposed all-in-line rotor ball-spring water turbines and opposite-series all-in-line rotor blade elastic-ball turbine gas turbines provided with friction loss reduction means (3) aiming to increase concentrated power generation amount to sunlight (water tube 52b) pipe Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Water Surface Levitation Type Solar Heater (2) (2b) 2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (2d) near the vacuum And friction loss reduction means (3) aiming at increasing power generation by maintaining the sunlight at right angles and close to each other, all power generation method including multistage opposed blade all-wheels ball water turbine and opposed series all bladed ball elastic wheels gas turbine The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Power generation with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lens (2d) How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, divide and clamp (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposite-series-all mover wing-impeller-motor gas turbines are provided in multiple stages with friction loss reduction means (3) equipped with multiple tightening length lenses (2d) as a set to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials (2d) Various energy conservation cycle coalescing engines of the power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation amount by lengthening .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens from selected lens cross section In 2d), opposing series whole blade flipping car water turbine and opposing series whole blade flipping car gas turbine are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe in sunlight Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward vertically to lengthen the heat insulation in the part close to vacuum Opposite in-line all-blades-impacted water turbine · Opposed-series all-impacted fully moving-vane-wheeled gas turbines are provided in multiple stages with a lens (2d) and friction loss reduction means (3) aiming at increasing power generation by maintaining sunlight at near right angles Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Water surface floating solar heater (2) (2b) Compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection and burning + vaporization and explosion power + additional gravity acceleration in a vacuum, accelerating vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection and burning + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from existing materials to increase the power output by increasing the production length of the selected lens (2d) (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to concentrate sunlight on the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Water Surface Levitation Type Solar Heater (2) (2b) Compressed Air Heat (28b) Water (28b) 52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downwards to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Add the vaporization explosion power + gravity acceleration in the vacuum to maximize the vaporization explosion power max + + vertically downward to divide and install the multiple clamp lenses (2 d) of the clamp (80 B) clamp in a set Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase of vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from the existing material to make the selected lens (2d) longer and aiming at increased power generation by means of friction loss reduction ( 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward, from the existing lens cross section to the selected section length lens (2 d) concentrated sunlight to water (52 b) tube Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment method for producing ice + Heat resistant material (2A) Heat insulation material (2c) Water surface levitation type solar heater including half cylinder outer box (77B) (2 ) Maximize the vaporization explosion power + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added in vacuum Vertically accelerated downward from the existing material to make the selected lens long lens (2d) aim at increasing the amount of generation of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water from the whole blade water turbine + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Evaporation by water surface floating solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downwards to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Add the vaporization explosion power + gravity acceleration in the vacuum to maximize the vaporization explosion power max + + vertically downward to divide and install the multiple clamp lenses (2 d) of the clamp (80 B) clamp in a set Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase of vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from the existing material to make the selected lens (2d) longer and aiming at increased power generation by means of friction loss reduction ( 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 Maximum increase in vaporization explosion power + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward, from the existing lens cross section to the selected section length lens (2 d) concentrated sunlight to water (52 b) tube Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Allowing for Vacuum with Fasteners (80B) Water Surface Levitation Type Solar Heater (2 ) Maximize the vaporization explosion power + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + A means to reduce friction loss to increase power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration downward in the vacuum and adding vertically downward. A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + A means to reduce friction loss to increase power generation by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosive force + gravitational acceleration in vacuum. (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + Opposite in-line total motion equipped with friction loss reduction means (3) aiming to increase power output by accelerating vaporization explosion power + gravitational acceleration vertically downward in vacuum to make selected lenses (2d) longer from existing materials Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + A means to reduce friction loss to increase the concentrated power generation amount by accelerating sunlight to the water (52b) tube from the existing lens cross section by adding vertically downward the vaporization explosion power + gravitational acceleration in a vacuum 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Increase on vaporization explosion power by surface levitation solar heater (2) + A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating the vaporization explosion power + gravity acceleration downward in a vacuum and adding vertically downward. (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Add friction force reduction means (3) for increasing power generation by increasing width of long lens (2d) by adding explosive force + gravitational acceleration vertically downward and increasing the length of split clamp (80B) tightening long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Add frictional force + gravitational acceleration vertically downward and divide it to provide a set of multi-length lenses (2d) for tightening the clamp (80B) to reduce power loss (3) to increase power generation Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Opposite-series all-blades-collimated-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding explosive force + gravitational acceleration vertically downward and making selected lenses (2d) longer from existing materials to increase power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Add friction and force reduction means (3) aiming to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube by adding explosive power + gravitational acceleration vertically downward and using existing lens cross section with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles to Surplus + Water Surface Levitation Type Solar Heater (2) Increases Vaporization Explosive Force Maximum + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to vacuum and aim at increasing power generation by means of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating vertically downward. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add vertical acceleration downward, divide, and provide multiple sets of long lenses (2d) for tightening (80B) tightening to set up a set of friction loss reduction means (3) to increase power generation. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Opposite in-line all-blades-impeller-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by increasing the vertical length of selected materials from existing materials by increasing the vertical length downward, and facing in-line total movement Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Accelerate the downward vertical movement of the existing lens cross section to the selected section length lens (2d) to provide sunlight to the water (52b) tube aiming at increasing the amount of power generation facing in-line total motion equipped with friction loss reducing means (3) Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Accelerated vertically downward to maintain adiabatic long lens (2d) at a portion close to vacuum and a friction loss reducing means (3) for maintaining the solar light at a right angle to increase the power output. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating vertically downward. Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Add vertical acceleration downward, divide, and provide multiple sets of long lenses (2d) for tightening (80B) tightening to set up a set of friction loss reduction means (3) to increase power generation. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Opposite in-line all-blades-impeller-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by increasing the vertical length of selected materials from existing materials by increasing the vertical length downward, and facing in-line total movement Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Accelerate the downward vertical movement of the existing lens cross section to the selected section length lens (2d) to provide sunlight to the water (52b) tube aiming at increasing the amount of power generation facing in-line total motion equipped with friction loss reducing means (3) Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-Aeropower Photovoltaic power generation Series All-wheel Thrust wheel gas turbine driven by liquid nitrogen or liquid oxygen + Solar thermal augmentation suspension bridge (2b) Solar heater (2) + Evaporative explosion power in vacuum + Gravity acceleration Accelerated vertically downward to maintain adiabatic long lens (2d) at a portion close to vacuum and a friction loss reducing means (3) for maintaining the solar light at a right angle to increase the power output. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum A means to reduce friction loss to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosion force + gravitational acceleration in the inside 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravitational acceleration vertically downward and accelerating vertically downward from existing materials to make selected lenses (2d) longer Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum Friction loss reduction means aiming at increasing the amount of concentrated power generation by accelerating sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding vaporization explosion power + gravitational acceleration in the inside A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive to make various ships lively + solar thermal augmentation suspension bridge (2b) solar heater (2) + vacuum A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and the solar light at right angles by accelerating the vaporization explosion power + gravity acceleration downward in the vertical direction and keeping the vacuum close to the vacuum. 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy of the power generation method provided with multistage opposed blade all-wheels ball turbine water turbines and opposed series all-blades wheeled wheel gas turbines provided with friction loss reduction means (3) aiming to increase the width of 2d) to increase power generation amount Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy conservation cycle combination of power generation method provided with opposing series whole blade impacting wheel water turbine / opposing series full operating blade impacting wheel gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount by increasing width organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Energy Storage Cycles of Power Generation Method with Multistage Opposed Series All Rotor Water-Brush Water Turbine and Opposed Series All Rotor Air-Brushed Wheel Gas Turbine Equipped with Friction Loss Reduction Means (3) for Increasing Power Generation Width to Increase Power Generation Capacity Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) A power generation method provided with opposed lenses in an all-in-line all-wheels-impacted water turbine and anti-all-in-class all-impacted all-wheels-impacted gas turbine in multiple stages equipped with long lenses (2d) and friction loss reducing means (3) for increasing power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation of the power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving wing elastic wheel gas turbine provided in multiple stages by providing friction loss reducing means (3) aiming to increase power generation by providing 2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp (2d) is provided as a set to provide friction loss reduction means (3) aiming at increasing power generation Various energy of the power generation method in which opposing series all moving blade springing car water turbine and opposed series all moving wing moving wheel gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force + Gravity acceleration is added in a vacuum Vertically accelerated downward from the existing material and equipped with friction loss reduction means (3) aiming to increase the power output by making the long lens (2d) selected and manufactured Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various power generation methods provided with multistage opposed all-in-line impellers wheel water turbines and opposed series all-in-line all-blade impellers wheeled gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycles of a power generation method in which opposed series all moving blades water turbine and opposed series all moving blades gas turbine are provided in multiple stages with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe Coalition agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy conservation of the power generation method provided with multistage opposed all-in-line all-wheels wheeled water turbine and all-in-line all-swing all-in-line all-wheels wheeled gas turbine with friction loss reduction means (3) aiming to increase concentrated power generation in water (52b) pipe Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And a solar power generation method with friction loss reduction means (3) aiming to increase power generation by maintaining the solar power in the vicinity of a right angle. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum The energy saving of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the power at near right angle Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Opposite in-line all-blades-impeller-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining light at right angles and various energy of electric power generation method with multi-stage opposed-in-series all-blade-impeller-wheel gas turbine installed in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat recovery + Compression + Vaporization force + Gravity acceleration added Vertically downward acceleration to achieve the same water volume maximum power generation Friction loss reduction means (3) equipped with opposed series All moving blades Bumping water turbine water turbine · Opposed Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat pump (1G) (28a) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum under vertical direction to accelerate vertically downward to achieve the same water volume maximum power generation opposed friction loss reduction means (3) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to achieve the same water volume maximum power generation means (3) A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up to the sea + solar thermal augmentation suspension bridge (2b) solar heater (2) internal air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to achieve the same water volume maximum power generation with friction loss reduction means (3) Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) by superheated steam (52d) manufacturing method + storage battery drive various ships to make the best + solar heat augmentation suspension bridge (2b) solar heater (2) compressed air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerating vertically downwards to achieve the same water volume maximum power generation friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Equipped with friction loss reduction means (3) aiming to increase power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically adding the vaporization explosion power + gravity acceleration downward. Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Friction loss reduction means (3) aiming to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically by adding the vaporization explosion power + gravity acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Opposite in-line all-wheels spring wheel water equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravity acceleration vertically downward and making the selected lens (2d) longer from the existing materials Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative explosion power + acceleration of gravity is additionally added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section lens (2d) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aeropower Solar power generation all moving blades Gas turbine exhaust cold heat (52e) production method + lift pump (1H) increase in head + solar heat increase suspension bridge (2b) etc solar light heater (2) + in vacuum Evaporative explosion force + acceleration of gravity by additional vertical acceleration downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to reduce power loss (3) Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization explosion power + gravitational acceleration in vacuum + acceleration vertically downward to make the selected lens from existing materials long lens (2d) aiming at increasing the amount of generated friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Circle Outer Box (77B) Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to reduce the friction loss to increase power generation A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward, divide and set a plurality of long lenses (2d) of tightening (80B) tightening to aim at increasing power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add an evaporative explosion power + gravity acceleration in vacuum + accelerate vertically downward to make the selected long lens (2d) from the existing material longer and have a friction loss reduction means (3) to increase power output Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward, and increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight by the selected cross section lens (2 d) An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation All-in-One System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heat Augmentation Suspension Bridge (2b), etc. 2) + Add the vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum and aim at increasing power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization explosion power + gravitational acceleration in vacuum + acceleration vertically downward to make the selected lens from existing materials long lens (2d) aiming at increasing the amount of generated friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of the water turbine + solar power increase suspension bridge (2b) solar heat increase suspension bridge (2b), etc. Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Equipped with friction loss reduction means (3) aiming to increase power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by vertically adding the vaporization explosion power + gravity acceleration downward. Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Friction loss reduction means (3) aiming to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically by adding the vaporization explosion power + gravity acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Opposite in-line all-wheels spring wheel water equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravity acceleration vertically downward and making the selected lens (2d) longer from the existing materials Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative explosion power + acceleration of gravity is additionally added vertically downward to accelerate sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section lens (2d) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) etc. Solar heater (2) + in vacuum Evaporative explosion force + acceleration of gravity by additional vertical acceleration downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to vacuum to reduce power loss (3) Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward to increase the width of the split lens clamp (80B) and the length of the long lens (2d) clamped to provide a friction loss reduction means (3) for increasing power output. Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward and divided to provide a set of multiple long lenses (2d) by tightening the clamps (80B) for tightening and facing each other with friction loss reduction means (3) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Opposite in-line all moving blade elastic wheel water turbine · face-to-face series equipped with friction loss reduction means (3) aiming to increase power generation by increasing gravity acceleration by adding vertically downward and increasing the selected lens length (2d) from existing materials Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Gravity acceleration is accelerated vertically downward, and the opposing lens is equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with sunlight by the selected cross section lens (2d) Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Etc. Solar Heater (2) + Evaporative Explosion Force + in Vacuum + Add gravity acceleration to accelerate vertically downwards, facing the vacuum with the long lens (2d) of heat insulation and friction loss reduction means (3) for maintaining the sunlight at right angle to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the vaporization explosion force + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + Add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make the selected lens a long lens from the existing material (2d) with friction loss reduction means (3) aiming to increase power output Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add friction force reduction means (3) for increasing power generation by increasing width of long lens (2d) by adding explosive force + gravitational acceleration vertically downward and increasing the length of split clamp (80B) tightening long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add frictional force + gravitational acceleration vertically downward and divide it to provide a set of multi-length lenses (2d) for tightening the clamp (80B) to reduce power loss (3) to increase power generation Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Opposite-series all-blades-collimated-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding explosive force + gravitational acceleration vertically downward and making selected lenses (2d) longer from existing materials to increase power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add friction and force reduction means (3) aiming to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube by adding explosive power + gravitational acceleration vertically downward and using existing lens cross section with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation System Equipment Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Joint (80A) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to vacuum and aim at increasing power generation by means of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater A means to reduce friction loss to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosion force + gravitational acceleration in the inside 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravitational acceleration vertically downward and accelerating vertically downward from existing materials to make selected lenses (2d) longer Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater Friction loss reduction means aiming at increasing the amount of concentrated power generation by accelerating sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding vaporization explosion power + gravitational acceleration in the inside A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Facility Equipment Method for Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) + Vacuum Heater A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and the solar light at right angles by accelerating the vaporization explosion power + gravity acceleration downward in the vertical direction and keeping the vacuum close to the vacuum. 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Add friction force reduction means (3) for increasing power generation by increasing width of long lens (2d) by adding explosive force + gravitational acceleration vertically downward and increasing the length of split clamp (80B) tightening long lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Add frictional force + gravitational acceleration vertically downward and divide it to provide a set of multi-length lenses (2d) for tightening the clamp (80B) to reduce power loss (3) to increase power generation Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Opposite-series all-blades-collimated-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding explosive force + gravitational acceleration vertically downward and making selected lenses (2d) longer from existing materials to increase power generation・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Add friction and force reduction means (3) aiming to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube by adding explosive power + gravitational acceleration vertically downward and using existing lens cross section with selected cross section lens (2d) Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Equipment Method to Inject Superheated Steam Thermal (52d) into Methane Hydrate + Fully Electrified Residential Building + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) + Vaporization in Vacuum Add explosion power + gravitational acceleration vertically downward to keep the adiabatic long lens (2d) and the sunlight at right angle in the part close to vacuum and aim at increasing power generation by means of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Acceleration is accelerated vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to increase the power output by means of friction loss reduction means (3). Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum The acceleration is accelerated vertically downward, divided, and a plurality of long lenses (2d) of divided fasteners (80B) tightened are provided as a set to have a friction loss reducing means (3) for increasing power generation. Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Accelerating acceleration Accelerating vertically downward, and selecting friction lens (2d) from existing materials to increase power generation with friction loss reduction means (3) to face each other All-in-one all-blades Bumping wheel Water turbine All-opposed in-line Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Acceleration is accelerated vertically downward to accelerate sunlight to the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) + Evaporative Explosion Force + Gravity in Vacuum Acceleration is accelerated vertically downward, facing in a vacuum, long distance (2d) of adiabatic long lens (2d) and opposing loss in series equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining sunlight at near right angle Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + evaporation in the vacuum + acceleration of gravity acceleration is added vertically downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + acceleration of gravity is added vertically downward to split, split and clamp (80B) clamp multiple length lenses (2d) Various energy storage cycle combining engines of the power generation method provided with opposed-series all-blades-impeller-wheel water turbines and opposed-series-all-impeller-impeller-motors gas turbines provided in multiple stages with friction loss reduction means (3) for increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Add internal heat air in compression heat recovery + evapo- ration vaporization power + add gravity acceleration vertically downward to increase friction from existing materials to increase power output with long lens (2d) to reduce power loss A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravitational acceleration is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section long lens (2 d) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposite series all moved impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravity acceleration is added vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Friction loss reduction means to increase power generation amount by increasing width of long lens (2d) by adding the detonating force + gravitational acceleration vertically downward in recovery + vacuum and adding vertically downward (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamps in order to increase power generation by friction loss An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downward in Vacuum + Opposite Series with Friction Loss Reduction Means (3) to Increase Power Generation by Lengthening Large Lenses (2d) Selected from Existing Materials Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to reduce the friction loss aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing water turbine Condensation method repeatedly used + Solar power augmentation suspension bridge (2b) Solar heater (2b) Solar heater (2) longer heat with joint (80A) Thermal compression inside air Recovery + Evaporative Explosive Force + Gravity Acceleration in the Vacuum + Acceleration vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Vaporization explosive force + Gravity acceleration is added in a vacuum Vertically accelerated downward from the existing material and equipped with friction loss reduction means (3) aiming to increase the power output by making the long lens (2d) selected and manufactured Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Add evaporative explosive force + Gravity acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Friction loss reduction means to increase power generation amount by increasing width of long lens (2d) by adding the detonating force + gravitational acceleration vertically downward in recovery + vacuum and adding vertically downward (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamps in order to increase power generation by friction loss An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosion Force + Gravity Acceleration Added Vertically Downward in Vacuum + Opposite Series with Friction Loss Reduction Means (3) to Increase Power Generation by Lengthening Large Lenses (2d) Selected from Existing Materials Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosive Force + Gravity Acceleration is added vertically in a vacuum and accelerated vertically downward to reduce the friction loss aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Thermal compression of internal air Recovery + Evaporative Explosive Force + Gravity Acceleration in the Vacuum + Acceleration vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Evaporative explosion power + gravitational acceleration is added vertically downward to accelerate the split clamp (80B) and the width of the long lens (2d) clamped to increase the power output by means of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Evaporative explosion power + acceleration of gravity is added vertically downward and divided vertically to provide a set of multiple length lenses (2d) for tightening (80B) tightening to aim at increasing power generation by friction loss reducing means (3 A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Opposite in-line all-wheels bounce wheel equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravity acceleration vertically downward to make the selected lens (2d) longer from the existing materials Various energy preservation cycle combined engines of the power generation method which provided water turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Friction loss reduction means (3) aiming to increase the amount of concentrated power generation by adding sunlight to the water (52b) tube from the existing lens cross section by accelerating the vaporization explosion power + gravitational acceleration vertically downwards from the existing lens cross section Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Energy Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air Compression Heat Recovery + In Vacuum Evaporative explosion power + gravity acceleration is added vertically downward to accelerate the vertical length of the adiabatic long lens (2d) and the solar light in the area close to the vacuum to maintain the solar light in the vicinity of a right angle to increase power generation A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the split clamp (80B) clamp long lens Various power generation methods provided with multistage opposed all-in-line rotor ballistic wheel water turbine / opposed series all-in-line all-wheel rotor ballistic wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + add vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, split and clamp (80B) clamp An electric power generation method in which a plurality of opposed series all moving blade springing car water turbines and an opposed series all moving wing elastic wheeled gas turbine are provided in multiple stages equipped with a plurality of long lenses (2d) as a set to provide friction loss reducing means (3) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction accelerated vertically downward and select section length lens (2d) from the existing lens section An electric power generation method provided with multistage opposed all-in-line rotor ball-spring water turbines and opposite-series all-in-line rotor blade elastic-ball turbine gas turbines provided with friction loss reduction means (3) aiming to increase concentrated power generation amount to sunlight (water tube 52b) pipe Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat recovery of the internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and the adiabatic long lens (2d) And friction loss reduction means (3) aiming at increasing power generation by maintaining the sunlight at right angles and close to each other, all power generation method including multistage opposed blade all-wheels ball water turbine and opposed series all bladed ball elastic wheels gas turbine The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with opposed-series all-blades-impeller-wheel water turbines and opposed-series-all-impeller-impeller-motors gas turbines provided in multiple stages with friction loss reduction means (3) for increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) from existing materials A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposite series all moved impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat compression (28a) with heat pump (1G) + add vaporization and explosion power in a vacuum in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) by tightening the split clamp (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and clamp multiple clamp lenses (2d) by clamp (80B) clamp Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat heat generation (28a) by compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration vertically downward to accelerate the power generation by making the selected manufacturing long lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Water heat (52b) by compression heat recovery (+ G) with heat pump (1G) + vaporization acceleration power + gravity acceleration is added vertically downward to accelerate sunlight to the existing lens cross section with selected cross section lens (2 d) water (52 b) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) by heat pump (1G) Compressive heat recovery + Add vaporization and explosion power + gravity acceleration in vacuum in vertical direction and accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) With heat pump (1G) compression heat recovery + addition of vaporization explosion force + gravitational acceleration in vacuum to accelerate vertically downward to increase the width of long lens (2d) tightening with split clamp (80B) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum to accelerate vertically downward, split and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with opposed-series all-blades-impeller-wheel water turbines and opposed-series-all-impeller-impeller-motors gas turbines provided in multiple stages with friction loss reduction means (3) for increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat compression heat recovery with heat pump (1G) + addition of vaporization explosion power + gravity acceleration in a vacuum Vertically accelerate downward vertically to increase power output by selecting long lens (2d) from existing materials A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward, from the existing lens cross section to the selected section long lens (2d) sunlight into water (52b) tube Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposite series all moved impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) The heat pump (1G) with compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum to accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Add compression heat recovery + Evaporative explosion force + Gravity acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) and increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward, divided, and a set of multiple long lenses (2d) for tightening (80B) tightening is provided to generate power Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Compressive heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to lengthen selected lenses (2d) from existing materials to reduce power loss (3) Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Add compression heat recovery + Evaporative explosion power + Gravity acceleration in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat Pump ( 1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added vertically in vacuum and accelerated vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to generate power Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward, divided clamp (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposed-series all-blade-impeller all-impact wheel gas turbine is provided in multiple stages equipped with friction loss reduction means (3) to increase the width of the tightening long lens (2d) to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + add vertical acceleration downward, divide the internal air (28a) in the vertical direction and divide the fastener ( 80B) Opposite in-line all-blade-impact wheel water turbine · Opposed-series all-impact all blade spring-impact vehicle gas turbine equipped with a plurality of tightening long lenses (2d) as a set to provide friction loss reduction means (3) to increase power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add vaporizing explosive power + gravitational acceleration in a vacuum and accelerate vertically downward to make a long lens selected from existing materials Various energy storage cycles of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines provided with friction loss reduction means (3) aiming to increase power generation by making (2d) longer Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to select the selected cross section length from the existing lens cross section Opposite in-line all-wheels bounce wheel water turbine · face-to-face all-in-roll all-wheels bounce wheel gas turbine with multiple stages of friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) tube with lens (2d) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward to adiabatic at the part close to vacuum Longitudinal Series All Rotor Water-Brushing Car Water Turbine · Opposing Series All Rotor Air-Brushing Wheel Gas Turbine Multistage Equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the long lens (2d) and sunlight at right angle near Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy conservation cycle combination of power generation method provided with opposing series whole blade impacting wheel water turbine / opposing series full operating blade impacting wheel gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount by increasing width organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy conservation of the power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving wing elastic wheel gas turbine provided in multiple stages by providing friction loss reducing means (3) aiming to increase power generation by providing 2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycles of a power generation method in which opposed series all moving blades water turbine and opposed series all moving blades gas turbine are provided in multiple stages with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Method of Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum The energy saving of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the power at near right angle Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat water (52b) with compressed water heat exchanger (2Y) (28a) + add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, and split lens (80B) clamp long lens ( Various energy of the power generation method provided with multistage opposed blade all-wheels ball turbine water turbines and opposed series all-blades wheeled wheel gas turbines provided with friction loss reduction means (3) aiming to increase the width of 2d) to increase power generation amount Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compression water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) A power generation method provided with opposed lenses in an all-in-line all-wheels-impacted water turbine and anti-all-in-class all-impacted all-wheels-impacted gas turbine in multiple stages equipped with long lenses (2d) and friction loss reducing means (3) for increasing power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + Add vaporizing explosive power + gravitational acceleration in vacuum + accelerate vertically downward to make selected long lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various power generation methods provided with multistage opposed all-in-line impellers wheel water turbines and opposed series all-in-line all-blade impellers wheeled gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with the compressed water heat exchanger (2Y) (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downwards, and adiabatic long lens (2d) in the part close to the vacuum And a solar power generation method with friction loss reduction means (3) aiming to increase power generation by maintaining the solar power in the vicinity of a right angle. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy conservation cycle combination of power generation method provided with opposing series whole blade impacting wheel water turbine / opposing series full operating blade impacting wheel gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount by increasing width organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses Various energy conservation of the power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving wing elastic wheel gas turbine provided in multiple stages by providing friction loss reducing means (3) aiming to increase power generation by providing 2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycles of a power generation method in which opposed series all moving blades water turbine and opposed series all moving blades gas turbine are provided in multiple stages with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum The energy saving of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the power at near right angle Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the changer (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with the opposed series all moving blades water turbine and the opposite series all moved impeller gas turbines provided in multiple stages and equipped with friction loss reducing means (3) for increasing power generation amount.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat the water (52b) with the exchange machine (2Y) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to make the selected lens from the existing material longer, and increase the output by increasing friction An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization and explosion power + gravity acceleration vertically in vacuum + accelerate vertically downward to select sunlight from cross section of existing lens with water (52b) pipe with water (52b) tube Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (28a) Compressed Hydrothermal Heat water (52b) with exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward, and in the part close to vacuum, adiabatic long lens (2d) and sunlight at right angle Various energy conservation cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposed series all moving blade elastic car gas turbines provided with friction loss reducing means (3) for maintaining power generation amount increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration in vacuum and accelerate vertically downward, tightening the split fastener (80B) Power generation method with multistage opposed blade all-wheels wheeled water turbines and opposed series all-wheeled bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lenses (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat amount + add vaporizing explosion power + gravity acceleration in the vacuum and accelerate vertically downward to divide and tighten the clamp (80B) Counter-series all-blades-impeller-wheel water turbine · Counter-series-all-blade-impeller-impeller-motor gas turbines are provided in multi-stages with friction loss reduction means (3) with multiple long lenses (2d) attached as a set to increase power generation. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating Container (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make a selected lens from existing materials Long lens (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation amount by making long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross-section length lens from existing lens cross-section (2d Power generation with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) tube How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) and friction loss reduction means (3) for maintaining the solar light in the vicinity of a right angle to increase power generation capacity. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle coalescing engines of the power generation method provided with opposing series all moving blade water turbine and opposing series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aimed at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages with friction loss reducing means (3) aiming at increase of concentrated power generation amount in the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Photovoltaic generation Full-wing equipment method of repeated use of condensate Water + solar power increase suspension bridge (2b) solar heater (2b) solar heater (2) internal air heat compression compressed by coupling (80A) Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Energy saving cycle combined engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount maintained by .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp long lens (2d) Various energy conservation cycle combination of power generation method provided with opposing series whole blade impacting wheel water turbine / opposing series full operating blade impacting wheel gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount by increasing width organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) + add vaporization and explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and clamp the clamp (80B) Various energy conservation of the power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving wing elastic wheel gas turbine provided in multiple stages by providing friction loss reducing means (3) aiming to increase power generation by providing 2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat amount + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + add vaporization and explosion power + gravity acceleration in the vacuum + accelerate vertically downward and select water from the existing lens cross section (52b) Various energy storage cycles of a power generation method in which opposed series all moving blades water turbine and opposed series all moving blades gas turbine are provided in multiple stages with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensing Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Internal Air (2) Internal Air Heat the water (52b) with compressed air heat (28b) of heat + vaporize explosive power + add gravity acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum The energy saving of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the power at near right angle Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle coalescing engines of the power generation method provided with opposing series all moving blade water turbine and opposing series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aimed at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages with friction loss reducing means (3) aiming at increase of concentrated power generation amount in the pipe.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compression of internal air heat Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Energy saving cycle combined engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount maintained by .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, divide and set the multiple fasteners (80B) tightening and set the multiple length lenses (2d) as a set Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing material and aim at increasing the power output 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, select sunlight from the existing lens cross section with the selective cross section lens (2d) centralized power generation to the water (52b) tube Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Energy Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air Heat of Internal Air Heat (28b Heat the water (52b) + add the vaporization explosion force + gravitational acceleration in the vacuum + accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosion power + gravity acceleration in vacuum add acceleration vertically downward and clamp the split fastener (80B) Power generation with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lens (2d) How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to divide and clamp (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposite-series-all mover wing-impeller-motor gas turbines are provided in multiple stages with friction loss reduction means (3) equipped with multiple tightening length lenses (2d) as a set to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, select lens made from existing material, long lens (2d Various energy conservation cycle coalescing engines of the power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation amount by lengthening .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravity acceleration in vacuum add acceleration vertically downward and select lens from selected lens cross section In 2d), opposing series whole blade flipping car water turbine and opposing series whole blade flipping car gas turbine are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe in sunlight Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating (2) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downwards, length of heat insulation in the part close to vacuum Opposite in-line all-blades-impacted water turbine · Opposed-series all-impacted fully moving-vane-wheeled gas turbines are provided in multiple stages with a lens (2d) and friction loss reduction means (3) aiming at increasing power generation by maintaining sunlight at near right angles Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Generation Full-scale installation method of repeatedly using water of a full blade water turbine + Solar thermal augmentation suspension bridge (2b) solar heater (2) solar heater (2) compressed air heat amount (28b) Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards, split clamp (80B) clamp long lens (2d) Energy Storage Cycles of Power Generation Method with Multistage Opposed Series All Rotor Water-Brush Water Turbine and Opposed Series All Rotor Air-Brushed Wheel Gas Turbine Equipped with Friction Loss Reduction Means (3) for Increasing Power Generation Width to Increase Power Generation Capacity Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downward divided into multiple clamps with clamp (80B) clamp (2d) is provided as a set to provide friction loss reduction means (3) aiming at increasing power generation Various energy of the power generation method in which opposing series all moving blade springing car water turbine and opposed series all moving wing moving wheel gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporize explosive power + add gravity acceleration in vacuum vertically accelerate downward from the existing material to make selected lens long lens (2d) power generation amount Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + additional gravity acceleration in vacuum vertically accelerated downwards and sunlight from the existing lens cross section with the selected cross section lens (2d) Various energy conservation of the power generation method provided with multistage opposed all-in-line all-wheels wheeled water turbine and all-in-line all-swing all-in-line all-wheels wheeled gas turbine with friction loss reduction means (3) aiming to increase concentrated power generation in water (52b) pipe Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation System Equipment Repeatedly Using Condensed Water + Turbine (80B) to Enable Vacuum for Solar Thermal Augmentation Suspension Bridge (2b) Solar Heater (2) Compressed Air (2) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization evaporative force + add gravity acceleration in vacuum vertically accelerating downwards to a vacuum close to the adiabatic long lens (2d) and the sun Opposite in-line all-blades-impeller-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining light at right angles and various energy of electric power generation method with multi-stage opposed-in-series all-blade-impeller-wheel gas turbine installed in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation suspension bridge (2b) Solar heater (2) Compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to increase the width of the long lens (2d) tightening the split clamp (80B) to generate power Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection and burning + vaporization and explosion power + additional gravity acceleration in a vacuum, accelerating vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection and burning + addition of vaporization explosion power + gravity acceleration in vacuum vertically accelerated downward from existing materials to increase the power output by increasing the production length of the selected lens (2d) (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection / burning + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward to concentrate sunlight on the water (52b) tube with the selected lens length section (2d) from the existing lens section Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Power Generation Thermal Thermal Cooling Piping Buildings + Storage Battery Drive Various Automobiles + Solar Heat Increase Suspension Bridge (2b) Solar Heater (2) Water with Compressed Air Heat (28b) 52b) heating + fuel injection and burning + vaporization explosion power + additional gravity acceleration in vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and sunlight in the vicinity of a perpendicular angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the container (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to increase the width of the split lens (80B) clamping long lens (2d) Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with the opposed series all moving blades water turbine and the opposite series all moved impeller gas turbines provided in multiple stages and equipped with friction loss reducing means (3) for increasing power generation amount.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the container (2) + the vaporization explosion power + gravity acceleration is added vertically in vacuum and accelerated vertically downward, and the friction loss is aimed at increasing the power output by making the selected manufacturing long lens (2d) longer from existing materials An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is increased to the maximum + the evaporation explosion power + gravitational acceleration is added vertically downward in the vacuum chamber (2) and the sunlight is accelerated by the vertical cross section from the existing lens cross section with the selected cross section lens (2d) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Facility Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Thermal Augmentation Suspension Bridge (2b) Including Solar Housing (77B) Solar Heating The vaporization explosion power is maximized in the vessel (2) + the vaporization explosion power + gravity acceleration is added vertically downward in vacuum and accelerated vertically downward, and the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy conservation cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposed series all moving blade elastic car gas turbines provided with friction loss reducing means (3) for maintaining power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + Increase evaporation + Force in vacuum + Accelerate acceleration vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and reduce friction loss to increase power output A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + add vaporization and explosion power in vacuum + accelerate acceleration vertically downward, split and set multiple length lenses (2d) of tightening tool (80B) tightening to set power to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + vaporization evaporative force + gravitational acceleration in vertical direction vertically accelerated downward to make the selected lens (2d) longer from the existing material, and equipped with friction loss reduction means (3) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + + Evaporative Explosive Force + Add Gravity Acceleration in Vacuum Accelerate acceleration vertically downward and increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with the sunlight with the selected cross section lens (2 d) An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Evaporative Explosive Force Maximum at Solar Heater (2) Increase + vaporization evaporative force + add gravity acceleration in a vacuum, accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximize the explosive power + Add the vaporized explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightened with the split clamp (80B) to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in a vacuum, accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamp to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added in vacuum Vertically accelerated downward from the existing material to make the selected lens long lens (2d) aim at increasing the amount of generation of friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Maximum increase in explosive power + Vaporization explosive power + Gravity acceleration added vertically in vacuum Accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section length lens (2 d) Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one installation method of repeatedly using water condensate + Solar power augmentation suspension bridge (2b) that enables vacuum with fasteners (80B) Vaporization with solar heater (2) Increase the explosive power + add the vaporized explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + Increase evaporation + Force in vacuum + Accelerate acceleration vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) and reduce friction loss to increase power output A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + add vaporization and explosion power in vacuum + accelerate acceleration vertically downward, split and set multiple length lenses (2d) of tightening tool (80B) tightening to set power to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + vaporization evaporative force + gravitational acceleration in vertical direction vertically accelerated downward to make the selected lens (2d) longer from the existing material, and equipped with friction loss reduction means (3) to increase power generation Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + + Evaporative Explosive Force + Add Gravity Acceleration in Vacuum Accelerate acceleration vertically downward and increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with the sunlight with the selected cross section lens (2 d) An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) Solar heater (2) Evaporative explosion power maximum Increase + vaporization evaporative force + add gravity acceleration in a vacuum, accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum A means to reduce friction loss to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosion force + gravitational acceleration in the inside 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravitational acceleration vertically downward and accelerating vertically downward from existing materials to make selected lenses (2d) longer Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum Friction loss reduction means aiming at increasing the amount of concentrated power generation by accelerating sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding vaporization explosion power + gravitational acceleration in the inside A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Solar Heater (2) Maximizes Vaporization Explosion Force + Vacuum A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and the solar light at right angles by accelerating the vaporization explosion power + gravity acceleration downward in the vertical direction and keeping the vacuum close to the vacuum. 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum A means to reduce friction loss to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosion force + gravitational acceleration in the inside 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravitational acceleration vertically downward and accelerating vertically downward from existing materials to make selected lenses (2d) longer Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Friction loss reduction means aiming at increasing the amount of concentrated power generation by accelerating sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding vaporization explosion power + gravitational acceleration in the inside A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and the solar light at right angles by accelerating the vaporization explosion power + gravity acceleration downward in the vertical direction and keeping the vacuum close to the vacuum. 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum A means to reduce friction loss to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosion force + gravitational acceleration in the inside 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Opposite in-line all moving blades equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravitational acceleration vertically downward and accelerating vertically downward from existing materials to make selected lenses (2d) longer Various energy preservation cycle combined engines of the power generation method which installed the bounce wheel water turbine and the opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum Friction loss reduction means aiming at increasing the amount of concentrated power generation by accelerating sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding vaporization explosion power + gravitational acceleration in the inside A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Generation Series Full Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) + Vacuum A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and the solar light at right angles by accelerating the vaporization explosion power + gravity acceleration downward in the vertical direction and keeping the vacuum close to the vacuum. 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating the vaporization explosion power + gravitational acceleration vertically downward in the optical heater (2) + vacuum Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and fixed length lenses (2d) as a set to generate electricity Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum to accelerate vertically downward to make the selected lens long from the existing material (2d) to reduce friction loss (3) Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section long lens (2 d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a perpendicular angle in the part brought close to the vacuum Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air air compression heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the split clamp (80B) tightening long lens (2d) width Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate split clamp (80B) tightening Power generation method with multistage opposed blade all-wheels wheeled water turbines and opposed series all-wheeled bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lenses (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide Opposite in-line all-blades-impeller wheel water turbine · Opposite-series-all mover vane-elastic-wheel gas equipped with friction loss reduction means (3) aiming to increase power generation by increasing the width of attached long lens (2d) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration vertically in vacuum, accelerate vertically downward, split fastener ( 80B) Opposite in-line all-blades-impeller water turbine · Opposed-series all-blades-impeller all-impact wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of tightening long lens (2d) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertical acceleration vertically, split fastener (80B) Opposite in-line all-blades-collaring wheel water turbine · Opposing-series-all-rotor all-wheels bogie-milling gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of the tightening long lens (2d) Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to divide, divide and clamp (80B) clamp multiple length lenses (2d) Various energy storage cycle coalescing engines of the power generation method provided with opposing series all moving blade water turbine and opposing series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aimed at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and tighten clamp (80B) Counter-series all-blades-impeller-wheel water turbine · Counter-series-all-blade-impeller-impeller-motor gas turbines are provided in multi-stages with friction loss reduction means (3) with multiple long lenses (2d) attached as a set to increase power generation. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide Counter-series all-blades springing wheel water-turbine water turbine equipped with multiple-length lenses (2d) for tightening the clamps (80B) as a set to increase power generation Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp Gears (80B): A set of multiple long lenses (2d) tightened to provide a set of friction loss reduction means (3) to increase power generation Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add additional vertically downward to divide and clamp Opposite in-line all-blades-impeller wheel water turbine · anti-all-in-line all-blades-impact wheel-bumping car gas equipped with friction loss reducing means (3) aiming at increasing power generation by providing a set of multiple long lenses (2d) tightening with accessories (80B) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum to accelerate the internal air vertically downward to make the selected lens (2d) longer from the existing materials to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate selected organic lens from existing materials Long lens (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation amount by making long.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosivity + gravity acceleration in a vacuum add acceleration vertically downward, existing material Power generation method with multistage opposed blade all-wheels wheeled water turbines and opposed series all-over bladed all-wheels wheeled gas turbines in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation by making long lenses (2d) selected from among The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select from existing materials Various energy of power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving blade spring wheel gas turbine provided in multiple stages with long lens (2d) and friction loss reduction means (3) aiming at power generation increase Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward to select from existing materials A variety of power generation methods in which opposing series full bucket spring wheel water turbines and opposing series full bucket wheel flywheels gas turbines are provided in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation by making the production long lens (2d) long Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to accelerate sunlight from the existing lens cross section with selected cross section lens (2d) water (52b) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages with friction loss reducing means (3) aiming at increase of concentrated power generation amount in the pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate from the existing lens cross section Power generation with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) tube How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, existing lens Opposite in-line all moving blade bounce wheel water turbine · face facing in-line all moving blade bounce wheel equipped with friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) pipe with cross section selected lens length lens (2d) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + acceleration of gravity in vacuum vertically downward to select from existing lens cross section Opposed in-line all-blade-impacted car water turbine · Opposed-series all-swept-impacted car gas turbine equipped with friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) pipe with long lens (2d) of cross section Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward from existing lens cross section Opposite in-line all-blades-impacted wheel water turbine · Opposed-series all-impacted all-in-wing all-impacted wheel gas turbine gas turbine equipped with friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) pipe Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to accelerate the vertical direction, the long lens (2d) of the heat insulation in the part close to the vacuum and the sunlight Energy saving cycle combined engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount maintained by .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) and friction loss reduction means (3) for maintaining the solar light in the vicinity of a right angle to increase power generation capacity. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to vacuum Opposite in-line all-rotor blade springing wheel water turbine · anti-all-in-line all moving blade equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at near right angle in close part Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downwards, part brought close to vacuum Face-to-face all-rotor blade-impeller car water turbine / opposite-line all-rotor blade-impeller car gas turbine equipped with thermal loss long lens (2d) and friction loss reduction means (3) aiming at increasing power generation by maintaining sunlight at near right angle Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward and brought close to vacuum Opposite in-line all moving blade springing car water turbine · facing in-line all moving wing springing car gas equipped with thermal loss long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight at right angle near Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum to accelerate the internal air vertically downward to achieve the same water volume maximum power generation Opposed series equipped with friction loss reduction means (3) Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravitational acceleration in vertical direction Accelerate vertically downward to reduce friction loss aiming at same water volume maximum power generation A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the same amount of water Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at maximum power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to generate the same amount of water maximum power Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) method of superheated steam (52d) production method + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) perpendicular to sunlight + solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, same water amount maximum power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all blade impact vehicle water turbines and opposed series all blade impact vehicle gas turbines provided in multiple stages equipped with friction loss reduction means (3) aiming at quantity.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the vaporization explosion force + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + Add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make the selected lens a long lens from the existing material (2d) with friction loss reduction means (3) aiming to increase power output Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic all-rotor gas turbine exhaust cold energy (52e) production method + head increase by pumping pump (1H) + solar thermal increase Suspension bridge (2b) close to the sun and so on + solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Add the evaporative explosion power + gravitational acceleration vertically in a close proximity to etc + + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split clamp (80B) clamp the length of the long lens (2d) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) And so on perpendicular to + + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, split and clamp (80B) tightening multiple lenses (2d) Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right and so on + solar light heater (2) + add vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase power generation by making the selected lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle with + + solar light heater (2) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right and so on + solar light heater (2) + add evaporative explosion power + gravitational acceleration in the vacuum vertically accelerating vertically downward to make the adiabatic long lens (2d) and the sun light at right angle at the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization explosion force + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + Add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make the selected lens a long lens from the existing material (2d) with friction loss reduction means (3) aiming to increase power output Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-Aerodynamic Photovoltaic Solar power generation All-passage method of repeated use of water turbines + Solar heat augmentation suspension bridge (2b) made long by joint (80A) Close to perpendicular to sunlight etc. + Solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightened by the split clamp (80B), thereby increasing power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and multiple length lenses (2d) tightened to generate electricity Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum to accelerate vertically downward to make the selected lens long from the existing material (2d) to reduce the friction loss reduction means (3) A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section lens (2 d) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic all-in-one facility Repeated use of water turbines + Method to enable vacuum with fasteners (80B) Solar heat augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization explosion force + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + Add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make the selected lens a long lens from the existing material (2d) with friction loss reduction means (3) aiming to increase power output Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to perpendicular to sunlight etc. + Solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Friction loss reduction means aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration in the vacuum and adding vertically downward downward 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Add a vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamp to reduce friction loss to increase power generation A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + In vacuum, add evaporative explosion power + add gravity acceleration vertically downward to make the selected lens (2d) longer from the existing material, and have friction loss reduction means (3) to increase power output Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) Friction loss reduction means aiming at increasing the amount of concentrated power generation from the existing lens cross section by accelerating the sunlight vertically to the water (52b) tube from the existing lens cross section (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + Building battery drive Various motor vehicles are made + Solar heat augmentation Suspension bridge (2b) is made perpendicular to sunlight etc. + Solar heater (2) + Add an evaporative explosive force + Gravity acceleration in a vacuum + Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to reduce the friction loss to increase power generation A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Increase the width of the split lens (80B) clamping long lens (2d) by approaching vertically with + solar light heater (2) + add evaporative explosion power + gravitational acceleration in vacuum in vertical direction Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple fasteners (80B) with multiple lenses (2d) Various energy storage cycle coalescing engines of the power generation method provided with opposing series all moving blade water turbine and opposing series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aimed at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Move close to the right angle + Add solar energy (2) + Add the vaporization power + Gravity acceleration in vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages with friction loss reducing means (3) aiming at increase of concentrated power generation amount in the pipe.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + solar light heater (2) + add the vaporization explosion force + gravitational acceleration in a vacuum, accelerate vertically downwards, and make the adiabatic long lens (2d) and sunlight close to a right angle in the part close to the vacuum Energy saving cycle combined engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount maintained by .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) and increase the power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamps to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Adds vaporization loss + gravity acceleration in a vacuum + accelerates vertically downward to make the selected lens from existing materials long (2d) and equipped with friction loss reduction means (3) aiming to increase power output Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward to move sunlight to the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the power generation capacity by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating the vaporization explosion power + gravitational acceleration vertically downward in the optical heater (2) + vacuum Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporization explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and fixed length lenses (2d) as a set to generate electricity Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum to accelerate vertically downward to make the selected lens long from the existing material (2d) to reduce friction loss (3) Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section long lens (2 d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) + addition of vaporizing explosive force + gravitational acceleration in the vacuum vertically accelerated downward to keep the adiabatic long lens (2d) and the sun light in the vicinity of a perpendicular angle in the part brought close to the vacuum Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) and increase the power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add vaporization and explosion power + gravitational acceleration in a vacuum + accelerate vertically downward, divide and install multiple clamp lenses (2 B) with clamp (80 B) clamps to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Adds vaporization loss + gravity acceleration in a vacuum + accelerates vertically downward to make the selected lens from existing materials long (2d) and equipped with friction loss reduction means (3) aiming to increase power output Various energy preservation cycle combined engines of the power generation method which installed the opposing series all moving blade spring wheel water turbine and the opposing series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add the vaporization and explosion power + gravity acceleration in a vacuum + accelerate vertically downward to move sunlight to the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to aim at increased power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + A means to reduce friction loss to increase power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration downward in the vacuum and adding vertically downward. A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + A means to reduce friction loss to increase power generation by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosive force + gravitational acceleration in vacuum. (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + Opposite in-line total motion equipped with friction loss reduction means (3) aiming to increase power output by accelerating vaporization explosion power + gravitational acceleration vertically downward in vacuum to make selected lenses (2d) longer from existing materials Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + A means to reduce friction loss to increase the concentrated power generation amount by accelerating sunlight to the water (52b) tube from the existing lens cross section by adding vertically downward the vaporization explosion power + gravitational acceleration in a vacuum 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to solar light + solar heater (2) + A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating the vaporization explosion power + gravity acceleration downward in a vacuum and adding vertically downward. (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal air compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward, split clamp (80B) clamp long lens ( Various energy of the power generation method provided with multistage opposed blade all-wheels ball turbine water turbines and opposed series all-blades wheeled wheel gas turbines provided with friction loss reduction means (3) aiming to increase the width of 2d) to increase power generation amount Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + add evaporative explosion power + gravity acceleration in vertical direction vertically accelerated, divided into multiple clamps (80B) clamp A power generation method provided with opposed lenses in an all-in-line all-wheels-impacted water turbine and anti-all-in-class all-impacted all-wheels-impacted gas turbine in multiple stages equipped with long lenses (2d) and friction loss reducing means (3) for increasing power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) Internal air compressed heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward to make the selected manufacturing long lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated downward, from the existing lens cross section to the selected cross-section length lens (2d) sun Various power generation methods provided with multistage opposed all-in-line impellers wheel water turbines and opposed series all-in-line all-blade impellers wheeled gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated downward, vacuum a portion of the adiabatic long lens (2d) And a solar power generation method with friction loss reduction means (3) aiming to increase power generation by maintaining the solar power in the vicinity of a right angle. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress internal heat with compression heat recovery + add vaporizing explosive force + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) clamp by tightening the split fastener (80B) Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Internal heat air compression heat recovery + addition of vaporization explosion power + acceleration of gravity in a vacuum to accelerate vertically downward to divide and set a plurality of long lenses (2d) of tightening (80B) tightening Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Friction heat reduction means aiming at increased power generation by lengthening the selected lens (2d) from existing materials by accelerating the internal air in compression heat recovery + evaporation vaporization power + gravity acceleration in the vacuum vertically downward (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress the internal air into compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to concentrate the sunlight into the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, and keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air air compression heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the split clamp (80B) tightening long lens (2d) width Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to divide, divide and clamp (80B) clamp multiple length lenses (2d) Various energy storage cycle coalescing engines of the power generation method provided with opposing series all moving blade water turbine and opposing series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aimed at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum to accelerate the internal air vertically downward to make the selected lens (2d) longer from the existing materials to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to accelerate sunlight from the existing lens cross section with selected cross section lens (2d) water (52b) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages with friction loss reducing means (3) aiming at increase of concentrated power generation amount in the pipe.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward to accelerate the vertical direction, the long lens (2d) of the heat insulation in the part close to the vacuum and the sunlight Energy saving cycle combined engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount maintained by .
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress internal heat with compression heat recovery + add vaporizing explosive force + gravitational acceleration vertically in vacuum and accelerate vertically downward to increase the width of the long lens (2d) clamp by tightening the split fastener (80B) Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Internal heat air compression heat recovery + addition of vaporization explosion power + acceleration of gravity in a vacuum to accelerate vertically downward to divide and set a plurality of long lenses (2d) of tightening (80B) tightening Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Friction heat reduction means aiming at increased power generation by lengthening the selected lens (2d) from existing materials by accelerating the internal air in compression heat recovery + evaporation vaporization power + gravity acceleration in the vacuum vertically downward (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress the internal air into compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to concentrate the sunlight into the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Compress the internal air compression heat recovery + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, and keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Recovery of air by compression heat recovery + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Increase heat generation by compression heat recovery + add vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to divide and set multiple length lenses (2d) of tightening tool (80B) tightening Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat recovery of air + Evaporative detonation force + addition of gravitational acceleration in a vacuum Accelerate vertically downward to make the selected lens a long lens from existing materials (2d) A friction loss reduction means (3) aiming to increase power output Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat the air in compression heat recovery + add the vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with the selected cross section lens (2d) Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat recovery of air + Evaporative explosion + addition of gravitational acceleration in a vacuum Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) Compressive heat recovery + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerated downward, split fastener (80B) Opposite in-line all-blades-collaring wheel water turbine · Opposing-series-all-rotor all-wheels bogie-milling gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of the tightening long lens (2d) Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle to + solar light heater (2) internal heat (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically in the vacuum, divided vertically and divided Opposite in-line all-blades-impeller wheel water turbine · anti-all-in-line all-blades-impact wheel-bumping car gas equipped with friction loss reducing means (3) aiming at increasing power generation by providing a set of multiple long lenses (2d) tightening with accessories (80B) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downward to select from existing materials A variety of power generation methods in which opposing series full bucket spring wheel water turbines and opposing series full bucket wheel flywheels gas turbines are provided in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation by making the production long lens (2d) long Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat air (28a) with heat pump (1G) Compressive heat recovery + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward from existing lens cross section Various energy conservation cycle combined engine which made the sunlight the water (52b) tube with the selected section length lens (2d) method to increase the amount of power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) internal heat (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downward and brought close to vacuum Opposite in-line all moving blade springing car water turbine · facing in-line all moving wing springing car gas equipped with thermal loss long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight at right angle near Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum and accelerated vertically downwards, split clamp (80B) clamp long lens ( Various energy of the power generation method provided with multistage opposed blade all-wheels ball turbine water turbines and opposed series all-blades wheeled wheel gas turbines provided with friction loss reduction means (3) aiming to increase the width of 2d) to increase power generation amount Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add internal heat (28a) with heat pump (1G) in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide and divide multiple clamps (80B) A power generation method provided with opposed lenses in an all-in-line all-wheels-impacted water turbine and anti-all-in-class all-impacted all-wheels-impacted gas turbine in multiple stages equipped with long lenses (2d) and friction loss reducing means (3) for increasing power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Add heat inside the air (28a) with compression heat recovery with heat pump (1G) + add detonation force + gravitational acceleration vertically downward and accelerate the selected material from existing materials vertically to make the long lens (2d) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat the internal air (28a) with a heat pump (1G) + add vaporization power + gravitational acceleration in compression heat recovery + vacuum and accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various power generation methods provided with multistage opposed all-in-line impellers wheel water turbines and opposed series all-in-line all-blade impellers wheeled gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and adiabatic long lens (2d) at the part brought close to vacuum And a solar power generation method with friction loss reduction means (3) aiming to increase power generation by maintaining the solar power in the vicinity of a right angle. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate split clamp (80B) tightening Power generation method with multistage opposed blade all-wheels wheeled water turbines and opposed series all-wheeled bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lenses (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and tighten clamp (80B) Counter-series all-blades-impeller-wheel water turbine · Counter-series-all-blade-impeller-impeller-motor gas turbines are provided in multi-stages with friction loss reduction means (3) with multiple long lenses (2d) attached as a set to increase power generation. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate selected organic lens from existing materials Long lens (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation amount by making long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate from the existing lens cross section Power generation with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) tube How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and adiabatic long lens in the part close to vacuum (2d) and friction loss reduction means (3) for maintaining the solar light in the vicinity of a right angle to increase power generation capacity. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum and accelerated vertically downwards, split clamp (80B) clamp long lens ( Various energy of the power generation method provided with multistage opposed blade all-wheels ball turbine water turbines and opposed series all-blades wheeled wheel gas turbines provided with friction loss reduction means (3) aiming to increase the width of 2d) to increase power generation amount Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add internal heat (28a) with heat pump (1G) in compression heat recovery + vacuum Add vaporization power + gravity acceleration vertically downward to divide and divide multiple clamps (80B) A power generation method provided with opposed lenses in an all-in-line all-wheels-impacted water turbine and anti-all-in-class all-impacted all-wheels-impacted gas turbine in multiple stages equipped with long lenses (2d) and friction loss reducing means (3) for increasing power generation Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Add heat inside the air (28a) with compression heat recovery with heat pump (1G) + add detonation force + gravitational acceleration vertically downward and accelerate the selected material from existing materials vertically to make the long lens (2d) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat the internal air (28a) with a heat pump (1G) + add vaporization power + gravitational acceleration in compression heat recovery + vacuum and accelerate vertically downward to select the sun from the existing lens cross section with the selected cross section lens (2 d) Various power generation methods provided with multistage opposed all-in-line impellers wheel water turbines and opposed series all-in-line all-blade impellers wheeled gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and adiabatic long lens (2d) at the part brought close to vacuum And a solar power generation method with friction loss reduction means (3) aiming to increase power generation by maintaining the solar power in the vicinity of a right angle. Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat heat compression (air heat 28a) with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the width of split fastener (80B) and width of long lens (2d) Energy saving cycle combining engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization and explosion power + additional gravity acceleration is accelerated vertically downward to divide and clamp multiple fasteners (80B) with multiple lenses (2d) Various energy conservation cycles of the power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic car gas turbines provided in multiple stages with friction loss reduction means (3) aiming at increasing power generation amount. Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward to accelerate vertically downward from existing materials to increase power generation by making selected manufacturing long lens (2d) longer Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Air (28a) is compressed heat recovery with heat pump (1G) + vaporization explosion power + gravity acceleration is added vertically downward and accelerated vertically downward to make sunlight water with selected cross section lens (2d) from existing lens cross section 52b) Equipped with friction loss reduction means (3) aiming at increase of concentrated power generation in the tube Various energy storage cycle combination of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are provided in multiple stages organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation Thermal cooling pipe construction method + building battery drive various motor vehicles to make + solar heat augmentation suspension bridge (2b) close to perpendicular to sunlight + solar heater (2) inside Heat the air (28a) with a heat pump (1G) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to adiabatic long lenses (2d) and sunlight at the part close to the vacuum Various energy storage cycles of power generation method with multistage opposed bladed wheel water turbines and opposed series rotating bladed wheeled gas turbines equipped with friction loss reducing means (3) for maintaining power generation near the right angle Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Opposite in-line all moving blade resilient wheel water turbine equipped with friction loss reducing means (3) aiming at increasing power generation by accelerating the width of the long lens (2d) by tightening the split fastener (80B) Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Opposite in-line all moving blade resilient wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing multiple sets of long lenses (2d) by accelerating, dividing and fastening (80B) tightening・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Opposite in-line all-blades-impacted wheel water turbine · Opposed-series all-impacted all-wafer-impacted vehicle gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by selecting long lenses (2d) selected from existing materials and accelerating Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Opposite in-line all moving blade spring wheel water turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount by accelerating sunlight to water (52b) pipe with selected section lens (2d) from existing lens section Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) internal air (28a) compressed water heat exchanger (2Y) heat water (52b) + evaporative explosion power in a vacuum + add gravity acceleration vertically downward Opposite-series all-blades-impeller wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle by accelerating to a portion close to vacuum・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide fasteners (2) 80B) Opposite in-line all-blades-impeller water turbine · Opposed-series all-blades-impeller all-impact wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of tightening long lens (2d) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to divide and tighten Gears (80B): A set of multiple long lenses (2d) tightened to provide a set of friction loss reduction means (3) to increase power generation Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy of power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving blade spring wheel gas turbine provided in multiple stages with long lens (2d) and friction loss reduction means (3) aiming at power generation increase Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward and select from existing lens cross section Opposed in-line all-blade-impacted car water turbine · Opposed-series all-swept-impacted car gas turbine equipped with friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) pipe with long lens (2d) of cross section Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to a part close to the vacuum Face-to-face all-rotor blade-impeller car water turbine / opposite-line all-rotor blade-impeller car gas turbine equipped with thermal loss long lens (2d) and friction loss reduction means (3) aiming at increasing power generation by maintaining sunlight at near right angle Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide Opposite in-line all-blades-impeller wheel water turbine · Opposite-series-all mover vane-elastic-wheel gas equipped with friction loss reduction means (3) aiming to increase power generation by increasing the width of attached long lens (2d) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide Counter-series all-blades springing wheel water-turbine water turbine equipped with multiple-length lenses (2d) for tightening the clamps (80B) as a set to increase power generation Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosivity + gravity acceleration in a vacuum add acceleration vertically downward, existing material Power generation method with multistage opposed blade all-wheels wheeled water turbines and opposed series all-over bladed all-wheels wheeled gas turbines in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation by making long lenses (2d) selected from among The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, existing lens Opposite in-line all moving blade bounce wheel water turbine · face facing in-line all moving blade bounce wheel equipped with friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) pipe with cross section selected lens length lens (2d) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to vacuum Opposite in-line all-rotor blade springing wheel water turbine · anti-all-in-line all moving blade equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at near right angle in close part Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide fasteners (2) 80B) Opposite in-line all-blades-impeller water turbine · Opposed-series all-blades-impeller all-impact wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of tightening long lens (2d) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to divide and tighten Gears (80B): A set of multiple long lenses (2d) tightened to provide a set of friction loss reduction means (3) to increase power generation Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to select from existing materials Various energy of power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving blade spring wheel gas turbine provided in multiple stages with long lens (2d) and friction loss reduction means (3) aiming at power generation increase Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward and select from existing lens cross section Opposed in-line all-blade-impacted car water turbine · Opposed-series all-swept-impacted car gas turbine equipped with friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) pipe with long lens (2d) of cross section Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to a part close to the vacuum Face-to-face all-rotor blade-impeller car water turbine / opposite-line all-rotor blade-impeller car gas turbine equipped with thermal loss long lens (2d) and friction loss reduction means (3) aiming at increasing power generation by maintaining sunlight at near right angle Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + accelerate vertically downward to clamp the split fastener (80B) Power generation with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lens (2d) How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + gravity acceleration in the vacuum + add vertical acceleration vertically to divide and clamp the fastener (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposite-series-all mover wing-impeller-motor gas turbines are provided in multiple stages with friction loss reduction means (3) equipped with multiple tightening length lenses (2d) as a set to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to make the selected lens from existing materials Long lens (2d) Various energy conservation cycle coalescing engines of the power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation amount by lengthening .
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to select cross section lens from the existing lens cross section In 2d), opposing series whole blade flipping car water turbine and opposing series whole blade flipping car gas turbine are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe in sunlight Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + evaporative explosion power + add gravity acceleration in vacuum + add vertical acceleration vertically to lengthen the heat insulation in the part close to vacuum Opposite in-line all-blades-impacted water turbine · Opposed-series all-impacted fully moving-vane-wheeled gas turbines are provided in multiple stages with a lens (2d) and friction loss reduction means (3) aiming at increasing power generation by maintaining sunlight at near right angles Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward , Opposite in-line all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the split tightening tool (80B) tightening long lens (2d) Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward Opposite in-line all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming at increasing power generation by providing multiple long lenses (2d) by dividing and tightening fasteners (80B) as a set as a set Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward Opposite in-line all-blades-impeller wheel water turbine · Opposite-series-all mover wing-impellers gas turbine is provided in multiple stages equipped with friction loss reduction means (3) to increase power generation by selecting long lenses (2d) selected from existing materials Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward From the existing lens cross section, select a section lens (2d) to increase sunlight to the water (52b) pipe with friction loss reduction means (3) aiming to increase the amount of electric power generation Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at right angles to + solar light heater (2) (2b) Heat air (28b) by compressed air heat (28b) of internal air heat + add evaporative explosion power + gravity acceleration in vacuum and accelerate vertically downward Opposite in-line all-blade flexible-wheel water-turbine water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle in a part close to vacuum Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate the divided clamp (80B) Counter-series all-rotor-wheel-spring water turbine · anti-series-all-rotor wing-impeller-motor gas turbine provided with friction loss reduction means (3) for increasing power generation by increasing the width of attached long lens (2d) Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air with water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and divide it into fasteners (80B A multistage counter-rotary all-rotor water-impact wheel water turbine with an anti-all-round all-rotor all-wheel rotary-impact wheel gas turbine equipped with multiple tightening length lenses (2d) as a set to increase power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravitational acceleration in vacuum and accelerate vertically downward to make a selected lens from existing materials Various energy preservation cycle combination of the power generation method which installed the opposing series whole bucket spring wheel water turbine and the counter series whole wing blade flywheel car gas turbine provided with friction loss reduction means (3) aiming at power generation increase by lengthening 2d). organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization power + gravity acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from the existing lens cross section (2d) Opposite in-line all-wheels bounce wheel water turbine · face-to-roll all-in-round all-wheels bounce wheel gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in a vacuum + accelerate vertically downward and adiabatic at the part close to vacuum Opposite in-line all-blade-impact wheel water turbine · Opposed-series all-blade all-impact ball spring vehicle gas turbine with multiple stages of friction loss reduction means (3) aiming to increase power generation by maintaining long lenses (2d) and sunlight at near right angles Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration vertically in vacuum, accelerate vertically downward, split fastener ( 80B) Opposite in-line all-blades-impeller water turbine · Opposed-series all-blades-impeller all-impact wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of tightening long lens (2d) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward to divide and clamp Gears (80B): A set of multiple long lenses (2d) tightened to provide a set of friction loss reduction means (3) to increase power generation Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + gravity acceleration vertically in vacuum and accelerate vertically downward to select from existing materials Various energy of power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving blade spring wheel gas turbine provided in multiple stages with long lens (2d) and friction loss reduction means (3) aiming at power generation increase Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in heat + add vaporization explosion power + acceleration of gravity in vacuum vertically downward to select from existing lens cross section Opposed in-line all-blade-impacted car water turbine · Opposed-series all-swept-impacted car gas turbine equipped with friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) pipe with long lens (2d) of cross section Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in vacuum vertically accelerated downwards, part brought close to vacuum Face-to-face all-rotor blade-impeller car water turbine / opposite-line all-rotor blade-impeller car gas turbine equipped with thermal loss long lens (2d) and friction loss reduction means (3) aiming at increasing power generation by maintaining sunlight at near right angle Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate the divided clamp (80B) Counter-series all-rotor-wheel-spring water turbine · anti-series-all-rotor wing-impeller-motor gas turbine provided with friction loss reduction means (3) for increasing power generation by increasing the width of attached long lens (2d) Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air with water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and divide it into fasteners (80B A multistage counter-rotary all-rotor water-impact wheel water turbine with an anti-all-round all-rotor all-wheel rotary-impact wheel gas turbine equipped with multiple tightening length lenses (2d) as a set to increase power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravitational acceleration in vacuum and accelerate vertically downward to make a selected lens from existing materials Various energy preservation cycle combination of the power generation method which installed the opposing series whole bucket spring wheel water turbine and the counter series whole wing blade flywheel car gas turbine provided with friction loss reduction means (3) aiming at power generation increase by lengthening 2d). organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization power + gravity acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from the existing lens cross section (2d) Opposite in-line all-wheels bounce wheel water turbine · face-to-roll all-in-round all-wheels bounce wheel gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in a vacuum + accelerate vertically downward and adiabatic at the part close to vacuum Opposite in-line all-blade-impact wheel water turbine · Opposed-series all-blade all-impact ball spring vehicle gas turbine with multiple stages of friction loss reduction means (3) aiming to increase power generation by maintaining long lenses (2d) and sunlight at near right angles Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, long lens with divided clamp (80B) clamp Various power generation methods provided with multistage opposed all-in-line rotor ballistic wheel water turbine / opposed series all-in-line all-wheel rotor ballistic wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and clamp the fastener (80B) An electric power generation method in which a plurality of opposed series all moving blade springing car water turbines and an opposed series all moving wing elastic wheeled gas turbine are provided in multiple stages equipped with a plurality of long lenses (2d) as a set to provide friction loss reducing means (3) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make the selected long lens (2d) long from the existing material Various energy preservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in vacuum and accelerate vertically downward to select cross section lens from existing lens cross section (2d) An electric power generation method provided with multistage opposed all-in-line rotor ball-spring water turbines and opposite-series all-in-line rotor blade elastic-ball turbine gas turbines provided with friction loss reduction means (3) aiming to increase concentrated power generation amount to sunlight (water tube 52b) pipe Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosion power + gravity acceleration in the vacuum + accelerate vertically downward, and adiabatic long lens (2d) And friction loss reduction means (3) aiming at increasing power generation by maintaining the sunlight at right angles and close to each other, all power generation method including multistage opposed blade all-wheels ball water turbine and opposed series all bladed ball elastic wheels gas turbine The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward Facing each other, all the blades are equipped with friction loss reducing means (3) for increasing the width of the long lens (2d) for tightening the split clamp (80B), and the opposing wheel is a water turbine. Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward Opposite in-line all moving blade resilient wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) by clamping and fastening (80B) tightening Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward In order to increase power generation capacity by selecting long lenses (2d) selected from existing materials, the opposed series all moving blade water turbine and the opposite series all moving blade elastic wheel gas turbine are equipped with multistage friction blade reduction means (3) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward In order to increase the amount of concentrated power generation to increase the amount of power generation to the sunlight with water (52b) tube with selected lens section cross lens from existing lens cross section facing opposite series all moving blade springing wheel water turbine equipped with facing loss series (3) Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right + heat the water (52b) with solar heater (2) (2b) compressed air heat quantity (28b) + burn fuel and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerate downward Opposite series all moving blade spring wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle near the vacuum Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward, split fastener (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposed-series all-blade-impeller all-impact wheel gas turbine is provided in multiple stages equipped with friction loss reduction means (3) to increase the width of the tightening long lens (2d) to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp 80B) Opposite in-line all-blade-impact wheel water turbine · Opposed-series all-impact all blade spring-impact vehicle gas turbine equipped with a plurality of tightening long lenses (2d) as a set to provide friction loss reduction means (3) to increase power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials Various energy storage cycles of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines provided with friction loss reduction means (3) aiming to increase power generation by making (2d) longer Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select cross-sectional length from existing lens cross-section Opposite in-line all-wheels bounce wheel water turbine · face-to-face all-in-roll all-wheels bounce wheel gas turbine with multiple stages of friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) tube with lens (2d) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward and adiabatic at the part close to vacuum Longitudinal Series All Rotor Water-Brushing Car Water Turbine · Opposing Series All Rotor Air-Brushing Wheel Gas Turbine Multistage Equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the long lens (2d) and sunlight at right angle near Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertical acceleration vertically, split fastener (80B) Opposite in-line all-blades-collaring wheel water turbine · Opposing-series-all-rotor all-wheels bogie-milling gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of the tightening long lens (2d) Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add additional vertically downward to divide and clamp Opposite in-line all-blades-impeller wheel water turbine · anti-all-in-line all-blades-impact wheel-bumping car gas equipped with friction loss reducing means (3) aiming at increasing power generation by providing a set of multiple long lenses (2d) tightening with accessories (80B) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward to select from existing materials A variety of power generation methods in which opposing series full bucket spring wheel water turbines and opposing series full bucket wheel flywheels gas turbines are provided in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation by making the production long lens (2d) long Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Optical heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward from existing lens cross section Opposite in-line all-blades-impacted wheel water turbine · Opposed-series all-impacted all-in-wing all-impacted wheel gas turbine gas turbine equipped with friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) pipe Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Light heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration added in vacuum vertically accelerated downward and brought close to vacuum Opposite in-line all moving blade springing car water turbine · facing in-line all moving wing springing car gas equipped with thermal loss long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight at right angle near Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward, split fastener (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposed-series all-blade-impeller all-impact wheel gas turbine is provided in multiple stages equipped with friction loss reduction means (3) to increase the width of the tightening long lens (2d) to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp 80B) Opposite in-line all-blade-impact wheel water turbine · Opposed-series all-impact all blade spring-impact vehicle gas turbine equipped with a plurality of tightening long lenses (2d) as a set to provide friction loss reduction means (3) to increase power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward to make a selected lens from existing materials Various energy storage cycles of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines provided with friction loss reduction means (3) aiming to increase power generation by making (2d) longer Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and combustion + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select cross-sectional length from existing lens cross-section Opposite in-line all-wheels bounce wheel water turbine · face-to-face all-in-roll all-wheels bounce wheel gas turbine with multiple stages of friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) tube with lens (2d) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravitational acceleration in vacuum add acceleration vertically downward and adiabatic at the part close to vacuum Longitudinal Series All Rotor Water-Brushing Car Water Turbine · Opposing Series All Rotor Air-Brushing Wheel Gas Turbine Multistage Equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the long lens (2d) and sunlight at right angle near Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + add vaporization and explosion power + gravity acceleration in vacuum vertically accelerating the divided clamp (80B) by tightening vertically Counter-series all-moving blade spring wheel water turbine · counter-series all-wheel blade spring wheel gas turbine provided with friction loss reducing means (3) for increasing power generation by increasing the width of the lens (2d) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn it + add vaporization and explosion power + gravitational acceleration in vacuum and accelerate vertically downward to divide and clamp the fastener (80B) Multi-length lenses (2d) are provided as a set to provide friction loss reduction means (3) aiming at increasing power generation Power generation with multi-stage opposed blade all-wheels wheeled water turbines and counter-series all-bladed wheeled gas turbines provided in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + Fuel injection and burn + add vaporization explosion power + gravitational acceleration in vacuum + accelerate vertically downward to make a selected lens from existing materials (2d) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation as long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + Fuel-injection-combustion + Add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select cross-section length lens (2d) from existing lens cross-section Power generation method with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reduction means (3) aiming to increase concentrated power generation amount to the water (52b) tube The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) Close to the Sunlight + Solar Heater (2) ( 2b) Heat water (52b) with compressed air heat (28b) + fuel-jet burn and burn + vaporize explosive power + add gravity acceleration in vacuum vertically accelerating downward, and adiabatic long lens (close to vacuum) Power generation with multiple opposed blade all-wheels ball water turbines and opposed series all-wafer balled wheels gas turbines installed in multiple stages equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining 2d) and solar light in the vicinity of a right angle How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to right angle + increase the vaporization explosion power maximum with solar light heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating down vertically, split clamp (80B) clamp long lens Various power generation methods provided with multistage opposed all-in-line rotor ballistic wheel water turbine / opposed series all-in-line all-wheel rotor ballistic wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to the right angle + increase the vaporization explosion power with solar light heater (2) maximum + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating downward, split and clamp (80B) tightening An electric power generation method in which a plurality of opposed series all moving blade springing car water turbines and an opposed series all moving wing elastic wheeled gas turbine are provided in multiple stages equipped with a plurality of long lenses (2d) as a set to provide friction loss reducing means (3) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Approximate at a right angle + increase the vaporization explosive power maximum with solar light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating downward vertically to make a selected manufacturing long lens (2d) long from existing materials Various energy preservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to perpendicular to + increase the vaporization explosive power maximum with solar light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating downwards vertically from the existing lens cross section with the selected cross section lens (2d) An electric power generation method provided with multistage opposed all-in-line rotor ball-spring water turbines and opposite-series all-in-line rotor blade elastic-ball turbine gas turbines provided with friction loss reduction means (3) aiming to increase concentrated power generation amount to sunlight (water tube 52b) pipe Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Energy (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) Solar Heat Augmentation Suspension Bridge (2b) Including Half-Cylinder Outer Box (77B) Close to perpendicular to + increase the vaporization explosion power maximum with solar light heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating downward, vacuum a portion of the adiabatic long lens (2d And friction loss reduction means (3) aiming at increasing power generation by maintaining the sunlight at right angles and close to each other, all power generation method including multistage opposed blade all-wheels ball water turbine and opposed series all bladed ball elastic wheels gas turbine The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and set the multi-length lens (2d) of clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with opposed-series all-blades-impeller-wheel water turbines and opposed-series-all-impeller-impeller-motors gas turbines provided in multiple stages with friction loss reduction means (3) for increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power to the maximum + Add the vaporization and explosion power and gravity acceleration in a vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing materials and reduce the friction loss A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposite series all moved impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Photovoltaic Generation Method of Repeatedly Using Condensed Water of Full Blade Water Turbine + Solar Heat Augmentation Suspension Bridge (2b) Longened by Joint (80A) Close to the Sunlight + Solar Heater (2) Increase the vaporization and explosion power to the maximum + Add the vaporization and explosion power and gravity acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to obtain the width of the split lens (2B) clamp with the split clamp (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Evaporative explosion power is maximized by the light heater (2) + evaporation explosion power + gravitational acceleration is added vertically downward in vacuum and divided vertically and divided into multiple clamp lenses (2 d) Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate vertically downward to increase power generation by making the selected lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explosion power maximum with the optical heater (2) + add the vaporization explosion power + gravitational acceleration in vacuum in a vertical direction and accelerate downward vertically to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic All-Winger Facility Method of Repeatedly Using Condensing Water + Solar System to Make Vacuum Possible with Fasteners (80B) Solar Suspension Bridge (2b) Close to Sunlight + Solar Increase the vaporization explode force maximum with the light heater (2) + add the vaporization explode force + gravity acceleration in the vacuum vertically vertically downward to make the adiabatic long lens (2d) and the sun light at a right angle in the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and set the multi-length lens (2d) of clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with opposed-series all-blades-impeller-wheel water turbines and opposed-series-all-impeller-impeller-motors gas turbines provided in multiple stages with friction loss reduction means (3) for increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power to the maximum + Add the vaporization and explosion power and gravity acceleration in a vacuum and accelerate vertically downward to make the selected lens (2d) longer from the existing materials and reduce the friction loss A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power at maximum + add the vaporization and explosion power + gravitational acceleration in vacuum in a vertical direction to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposite series all moved impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar thermal augmentation Suspension bridge (2b) close to solar light + Solar heater (2) Increase the vaporization and explosion power to the maximum + Add the vaporization and explosion power and gravity acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Vertically in Vacuum Accelerate Vertically Downwards to Increase Width of Split Lens (80B) Tightening Long Lens (2d) to Increase Power Generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Upward in Vacuum Accelerate Vertically Down, Split and Provide Multiple Length Lenses (2d) with Fasteners (80B) Fastening in Set Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximal Increase + Evaporative Explosive Force + Gravity Acceleration Added in Vacuum Vertically Accelerated Downwards, Friction Loss Reduction Means (3) Aiming for Increased Power Generation with Long Lenses Selected from Existing Materials (2d) Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximal Increase + Evaporative Explosive Force + Gravity Acceleration Added Vertically Accelerated Vertically Downwards to Increase Concentrated Power Generation from Existing Lens Cross Section to Water (52b) Tube with Selected Sunlight Lens (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling and Cooling Piping Facilities + Storage Battery Drive Various Motor Vehicles + Solar Heat Increase Suspension Bridge (2b) at a Right Angle to Sunlight + Solar Heater (2) Evaporative Explosive Force Maximal Increase + Evaporative Explosive Force + Gravity Acceleration Added Vertically Downward Accelerated Vertically to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum, and generate electricity Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + A means to reduce friction loss to increase power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration downward in the vacuum and adding vertically downward. A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + A means to reduce friction loss to increase power generation by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosive force + gravitational acceleration in vacuum. (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Opposite in-line total motion equipped with friction loss reduction means (3) aiming to increase power output by accelerating vaporization explosion power + gravitational acceleration vertically downward in vacuum to make selected lenses (2d) longer from existing materials Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + A means to reduce friction loss to increase the concentrated power generation amount by accelerating sunlight to the water (52b) tube from the existing lens cross section by adding vertically downward the vaporization explosion power + gravitational acceleration in a vacuum 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating the vaporization explosion power + gravity acceleration downward in a vacuum and adding vertically downward. (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + A means to reduce friction loss to increase power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration downward in the vacuum and adding vertically downward. A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + A means to reduce friction loss to increase power generation by providing a set of multiple long lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosive force + gravitational acceleration in vacuum. (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + Opposite in-line total motion equipped with friction loss reduction means (3) aiming to increase power output by accelerating vaporization explosion power + gravitational acceleration vertically downward in vacuum to make selected lenses (2d) longer from existing materials Various energy conservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and opposed series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + A means to reduce friction loss to increase the concentrated power generation amount by accelerating sunlight to the water (52b) tube from the existing lens cross section by adding vertically downward the vaporization explosion power + gravitational acceleration in a vacuum 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動の方法+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydro-Aeropower Photovoltaic Solar Power Generation Series All Rotor Rotor Gas Turbine Driven by Liquid Nitrogen or Liquid Oxygen + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Solar Heater (2) + A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and sunlight at a right angle by accelerating the vaporization explosion power + gravity acceleration downward in a vacuum and adding vertically downward. (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward to increase the width of the long lens (2d) tightened by the split clamp (80B), thereby increasing power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum and accelerated vertically downward to divide and install multiple fasteners (80B) and multiple length lenses (2d) tightened to generate electricity Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum to accelerate vertically downward to make the selected lens long from the existing material (2d) to reduce the friction loss reduction means (3) A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section lens (2 d) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, and vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal air compression heat recovery + vaporization evaporative force + gravitational acceleration is added vertically downward to accelerate the width of the split fastener (80B) tightening the length of the long lens (2d) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add evaporative explosion power + gravitational acceleration in vacuum and accelerate vertically downward to clamp the split fastener (80B) Power generation with multistage opposed bladed wheel water turbines and opposed series all bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lens (2d) How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in the vacuum add acceleration vertically downward, split Opposite in-line all-blades-impeller wheel water turbine · anti-all-in-line all-impact rotor-wheel bouncer equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of tightening lens (80B) tightening long lens (2d) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of the heat of the inside air + add vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward, split fastener (80B) Opposite in-line all-blades-collaring wheel water turbine · Opposing-series-all-rotor all-wheels bogie-milling gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of the tightening long lens (2d) Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, split tightening Gear (80B) Opposed series all moving blade spring wheel water turbine · Opposed series all moving blade spring wheel gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) tightened Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is added vertically downward, divided into multiple fasteners (80B) clamps (2d) Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate and split vertically and divide (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposite-series-all mover wing-impeller-motor gas turbines are provided in multiple stages with friction loss reduction means (3) equipped with multiple tightening length lenses (2d) as a set to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in the vacuum add acceleration vertically downward, split Fastening tool (80B) Fastening multi-long lens (2d) is provided as a set to increase the power output with friction loss reducing means (3) Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) in the vacuum + add evaporative explosion power + gravitational acceleration in the vacuum, accelerate vertically downward, divide and clamp Opposite in-line all-blades-impeller wheel water turbine · anti-all-in-line all-blades-impact wheel-bumping car gas equipped with friction loss reducing means (3) aiming at increasing power generation by providing a set of multiple long lenses (2d) tightening with accessories (80B) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add up vertically downward and divide Opposite in-line all moving blade bouncer water turbine · anti-in-line all moving blade bouncer equipped with friction loss reducing means (3) to increase power generation by providing a set of multiple long lenses (2d) for tightening (80B) tightening Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Add internal heat of air inside in compression heat recovery + vacuum, add vaporization power + gravity acceleration vertically downward, and aim to increase power generation by making selected long lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion force + Gravity acceleration is added vertically downward to accelerate the selected vertical lens from existing materials (2d Various energy conservation cycle coalescing engines of the power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation amount by lengthening .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosion power + gravity acceleration in a vacuum add acceleration vertically downward, existing Select power from materials Select long lens (2d) long and equipped with friction loss reduction means (3) for increasing power generation with power generation How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add evaporative explosive power + gravitational acceleration in vacuum and accelerate vertically downward to select from existing materials A variety of power generation methods in which opposing series full bucket spring wheel water turbines and opposing series full bucket wheel flywheels gas turbines are provided in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation by making the production long lens (2d) long Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add vertically downward acceleration from existing materials Opposite in-line all-blades-impeller-wheel water turbine · Opposed-series-all-in-all-rotor vane-impeller with gas turbines in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation by making the selected manufacturing long lens (2d) long Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Add internal heat air in compression heat recovery + vacuum Add vaporization power + gravitational acceleration vertically downward and accelerate sunlight to the existing lens cross section with selected cross section lens (2d) water (52b A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + Gravity acceleration is added vertically downward to accelerate the cross section lens from the existing lens cross section In 2d), opposing series whole blade flipping car water turbine and opposing series whole blade flipping car gas turbine are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe in sunlight Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosion power + gravity acceleration in a vacuum add acceleration vertically downward, existing Opposite in-line all moving blades Bumping wheel water turbine equipped with friction loss reducing means (3) aiming to increase the concentrated power generation to the water (52b) pipe with selected cross-section length lens (2d) from lens cross section Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward, from the existing lens cross section Opposite in-line all-blades-impacted wheel water turbine · Opposed-series all-impacted all-in-wing all-impacted wheel gas turbine gas turbine equipped with friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) pipe with selected cross-section length lens (2d) Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in a vacuum add acceleration vertically downward, existing lens cross section Opposite in-line all-blades-impeller wheel water turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe with the selected cross-section length lens (2d) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal heat air compression heat recovery + evaporation evaporative explosion power + acceleration of gravity is accelerated vertically downward, the long lens (2d) of the heat insulation is perpendicular to the sun at the part close to the vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward, length of heat insulation in the part close to vacuum Opposite in-line all-blades-impacted water turbine · Opposed-series all-impacted fully moving-vane-wheeled gas turbines are provided in multiple stages with a lens (2d) and friction loss reduction means (3) aiming at increasing power generation by maintaining sunlight at near right angles Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) internal air (28a) heat water (52b) with compressed water heat exchanger (2Y) + vaporization explosive power + gravity acceleration in a vacuum add acceleration vertically downward, vacuum Facing each other, equipped with adiabatic long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight at a right angle near each other. Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heated water (52b) with compressed air heat (28b) of internal air heat + vaporization explosion power + gravity acceleration added in a vertical direction accelerated vertically downward and brought close to vacuum Opposite in-line all moving blade springing car water turbine · facing in-line all moving wing springing car gas equipped with thermal loss long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight at right angle near Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward and approach vacuum Counter-series all-blade-impacted car water turbine · counter-series all-impacted ball-impacted car equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Compressive heat recovery + Evaporative detonation force + Gravity acceleration is added vertically in a vacuum to accelerate the internal air vertically downward to achieve the same water volume maximum power generation opposed friction loss reduction means (3) Various energy preservation cycle combined engines of power generation method which installed in series all moving blade spring wheel water turbine and opposed series all moving wheel spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) Compress internal heat (28a) with heat pump (1G), add heat of vaporization, vaporization and explosion power + acceleration of gravity in vertical direction and accelerate vertically downward to achieve the same water volume maximum power generation friction loss An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal air (28a) + add the vaporization explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to the same Various energy conservation cycle combined engines of power generation method provided with opposed series all moving blade water turbines and opposed series all moving blades elastic vehicle gas turbines provided with friction loss reducing means (3) aiming at maximum water volume power generation.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward, same water amount maximum power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all blade impact vehicle water turbines and opposed series all blade impact vehicle gas turbines provided in multiple stages equipped with friction loss reduction means (3) aiming at quantity.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation system (52C) using solar power compression heat recovery system (2C) + storage battery drive to make various ships lively + increase solar heat suspension bridge (2b) with lifting tool Solar heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward, same amount of water maximum An energy storage cycle coalesced engine of various power generation methods including counter-series all-moving-collar-wheel water turbines and counter-series-all-rotor all-wheels impellers gas turbines provided with friction loss reducing means (3) for power generation.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization explosion power + gravitational acceleration in vacuum + acceleration vertically downward to make the selected lens from existing materials long lens (2d) aiming at increasing the amount of generated friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼ガスタービン排気による冷熱(52e)製造方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic All-Winger Gas Turbine Exhaust Cooled (52e) Manufacturing Method + Increase in Head Drop by Pumping Water Pump (1H) + Increase in Solar Heat Suspension Bridge (2b) with Lifting Tool, etc + Solar Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the width of the split clamp (80B) tightening long lens (2d) Energy saving cycle combining engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, divide and clamp multiple fasteners (80B) lens (2d) Various energy conservation cycles of the power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic car gas turbines provided in multiple stages with friction loss reduction means (3) aiming at increasing power generation amount. Coalition agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerated downward from the existing material to increase power generation by making the selected manufacturing long lens (2d) long Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosive power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) 52b) Equipped with friction loss reduction means (3) aiming at increase of concentrated power generation in the tube Various energy storage cycle combination of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are provided in multiple stages organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in the vacuum vertically accelerated downwards, a long lens (2d) and solar light with thermal insulation in the part close to the vacuum Various energy storage cycles of power generation method with multistage opposed bladed wheel water turbines and opposed series rotating bladed wheeled gas turbines equipped with friction loss reducing means (3) for maintaining power generation near the right angle Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the width of the long lens (2d) tightening the split clamp (80B) by accelerating vertically downwards by adding the vaporization explosion power + gravitational acceleration in a + sun light heater (2) + vacuum etc. Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Set the multi-long lens (2d) of the clamp (80B) clamp by dividing vertically etc by adding the vaporization explosion power + gravitational acceleration in the vacuum + solar light heater (2) + vacuum vertically downward Various energy storage cycle combining engines of the power generation method provided with the opposed series all moving blades water turbine and the opposite series all moved impeller gas turbines provided in multiple stages and equipped with friction loss reducing means (3) for increasing power generation amount.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Evaporative explosion power + addition of gravity acceleration in a vacuum + solar light heater (2) + vacuum, etc. Acceleration vertically downward to increase the power output by increasing the power of selected lenses (2d) from existing materials An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add solar light (2) + evaporative explosion power + gravitational acceleration in a vacuum, etc. Add vertical rays vertically downward, and select water from the existing lens cross section (2d) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Evaporative explosion power + gravity acceleration is added vertically downward in a vacuum + solar light (2) + vacuum, etc. in the vacuum and so on, the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy conservation cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposed series all moving blade elastic car gas turbines provided with friction loss reducing means (3) for maintaining power generation amount increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, the width of the split clamp (80B) tightening long lens (2d) Energy saving cycle combining engine of power generation method equipped with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, divide and clamp multiple fasteners (80B) lens (2d) Various energy conservation cycles of the power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic car gas turbines provided in multiple stages with friction loss reduction means (3) aiming at increasing power generation amount. Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the vaporization explosion power + gravitational acceleration in the vacuum vertically accelerated downward from the existing material to increase power generation by making the selected manufacturing long lens (2d) long Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosive power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) 52b) Equipped with friction loss reduction means (3) aiming at increase of concentrated power generation in the tube Various energy storage cycle combination of power generation method in which opposing series all moving blades water turbine and opposing series all moving blades gas turbine are provided in multiple stages organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in the vacuum vertically accelerated downwards, a long lens (2d) and solar light with thermal insulation in the part close to the vacuum Various energy storage cycles of power generation method with multistage opposed bladed wheel water turbines and opposed series rotating bladed wheeled gas turbines equipped with friction loss reducing means (3) for maintaining power generation near the right angle Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light In the heater (2) + vacuum, add the vaporization explosion power + gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization and explosion power + acceleration of gravity in a vacuum are accelerated vertically downward and divided to provide multiple length lenses (2d) of clamp (80B) clamp to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization explosion power + gravitational acceleration in vacuum + acceleration vertically downward to make the selected lens from existing materials long lens (2d) aiming at increasing the amount of generated friction loss reduction means (3) Various energy preservation cycle combined engines of the electric power generation method which provided the opposed series all moving blade spring wheel water turbine and the opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization and explosion power + gravitational acceleration in a vacuum, accelerating vertically downward to increase sunlight from the existing lens cross section to the water (52 b) tube with the selected section lens (2 d) Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic power generation Method to inject superheated steam thermal (52d) into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs etc + Solar light Heater (2) + addition of vaporization explosion force + gravitational acceleration in a vacuum and vertical acceleration downward to maintain adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add a vaporization explosion power + gravity acceleration in vacuum + accelerate vertically downward to increase the width of the long lens (2d) by tightening the split clamp (80B) to reduce power loss (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add a vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, divide, and provide multiple long lenses (2d) of tightening (80B) tightening to aim at increasing power generation by friction loss An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 Opposite series equipped with friction loss reduction means (3) aiming to increase power output by accelerating the vaporization explosion power + gravity acceleration vertically downward in + + vertical direction to make the selected lens (2d) longer from the existing materials Various energy preservation cycle combined engine of power generation method which installed all moving wing bounce wheel water turbine and opposing series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add a vaporization explode + gravity acceleration in vacuum + accelerate vertically downward and aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube by selecting sunlight with the selected cross section lens (2 d) A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Thermal Cooling Piping Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with left and right ups and downs + Sunlight Heater (2 ) + Add the vaporization exploding force + gravity acceleration in vacuum + accelerate vertically downward and keep the adiabatic long lens (2d) and sunlight at a right angle in the part close to the vacuum to aim at increased power output An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Add the vaporization explosion power + gravitational acceleration in the left and right up and down + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple clamp lenses (2d) Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add solar power (2) + vacuum Add vaporization power + gravity acceleration in the vacuum Vertically accelerate downward vertically to increase power output by making the selected lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add sunlight + heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52b A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + Add sunlight and heat (2d) + sunlight in the part close to the vacuum by accelerating the vaporization explosion power + gravitational acceleration vertically downward in + sunlight heater (2) + vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add + Evaporative Explosion Force + Gravity Acceleration in Vacuum + Solar Light Heater (2) + Vacuum Accelerate vertically downward to increase the width of the long lens (2d) clamp on the split clamp (80B) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add + Evaporative Explosion Force + Gravity Acceleration in a Vacuum + Solar Light Heater (2) + Vacuum Accelerate vertically downward and divide and set a multi-long lens (2d) with a clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with opposed-series all-blades-impeller-wheel water turbines and opposed-series-all-impeller-impeller-motors gas turbines provided in multiple stages with friction loss reduction means (3) for increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add + Evaporative Explosion Force + Gravity Acceleration in a Vacuum + Solar Light Heater (2) + Vacuum Accelerate vertically downward to increase the power output by increasing the power of selected lenses (2d) from existing materials Reduce friction loss A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Add solar light (2) + evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section lens (2 d) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposite series all moved impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Make the + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to keep the adiabatic long lens (2d) and the sunlight at a right angle near the part near the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Add the vaporization explosion power + gravitational acceleration in the left and right up and down + solar light heater (2) + vacuum and accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposed series all moving impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + solar light heater (2) + add the evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to divide and clamp multiple clamp lenses (2d) Energy saving cycle combination of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount organ.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add solar power (2) + vacuum Add vaporization power + gravity acceleration in the vacuum Vertically accelerate downward vertically to increase power output by making the selected lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add sunlight + heater (2) + add the vaporization explosion power + gravitational acceleration in a vacuum, accelerate vertically downward and select sunlight from the existing lens cross section with the selected cross section lens (2d) A variety of energy storage cycle coalescence engines of the power generation method equipped with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in the pipe .
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + Add sunlight and heat (2d) + sunlight in the part close to the vacuum by accelerating the vaporization explosion power + gravitational acceleration vertically downward in + sunlight heater (2) + vacuum Various energy conservation cycle combination of power generation method provided with opposing series all moving blades water turbine and opposing series all moving blades gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation by maintaining in the vicinity organ.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the vaporization explosion force + gravitational acceleration in a vacuum and accelerate vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to increase power generation An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having a loss reducing means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and install multiple long lenses (2d) of tightening tool (80B) tightening to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + Add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to make the selected lens a long lens from the existing material (2d) with friction loss reduction means (3) aiming to increase power output Various energy preservation cycle combined engines of the power generation method which installed the opposed series all moving blade spring car water turbine and the opposed series all moving wing driven wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the vaporization and explosion power + gravitational acceleration in a vacuum and accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52 b) tube with sunlight with a selected cross section lens (2 d) An energy conservation cycle combined engine of a power generation method provided with an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) + add the evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Friction loss reduction means aiming at increased power generation by increasing the width of the long lens (2d) by clamping the vaporization explosion power + gravity acceleration in the vacuum and adding vertically downward downward 3) Various energy storage cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposite series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Add a vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward to divide and install multiple clamp lenses (2B) with clamp (80B) clamp to reduce friction loss to increase power generation A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + In vacuum, add evaporative explosion power + add gravity acceleration vertically downward to make the selected lens (2d) longer from the existing material, and have friction loss reduction means (3) to increase power output Various energy conservation cycle combined engines of the power generation method which installed the rotor blade spring wheel water turbine and the opposing series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Friction loss reduction means aiming at increasing the amount of concentrated power generation from the existing lens cross section by accelerating the sunlight vertically to the water (52b) tube from the existing lens cross section (3) Various energy storage cycle coalescing engines of power generation method in which opposed series all moving blades water turbine and opposite series all moving vehicles gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) + Add an evaporative explosive force + Gravity acceleration in a vacuum + Accelerate vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to reduce the friction loss to increase power generation A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens Various power generation methods provided with multistage opposed all-in-line rotor ballistic wheel water turbine / opposed series all-in-line all-wheel rotor ballistic wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split and clamp (80B) clamp An electric power generation method in which a plurality of opposed series all moving blade springing car water turbines and an opposed series all moving wing elastic wheeled gas turbine are provided in multiple stages equipped with a plurality of long lenses (2d) as a set to provide friction loss reducing means (3) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left upside down + solar light heater (2) internal heat air compression heat recovery + vaporization explosive force + add gravitational acceleration vertically accelerated downward from existing materials selected lens long lens (2d) Various energy preservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select cross section lens from existing lens cross section (2d) An electric power generation method provided with multistage opposed all-in-line rotor ball-spring water turbines and opposite-series all-in-line rotor blade elastic-ball turbine gas turbines provided with friction loss reduction means (3) aiming to increase concentrated power generation amount to sunlight (water tube 52b) pipe Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the left and right up and down + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated down, the part near the vacuum heat insulation long lens (2d And friction loss reduction means (3) aiming at increasing power generation by maintaining the sunlight at right angles and close to each other, all power generation method including multistage opposed blade all-wheels ball water turbine and opposed series all bladed ball elastic wheels gas turbine The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion force + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens (2d) Energy Storage Cycles of Power Generation Method with Multistage Opposed Series All Rotor Water-Brush Water Turbine and Opposed Series All Rotor Air-Brushed Wheel Gas Turbine Equipped with Friction Loss Reduction Means (3) for Increasing Power Generation Width to Increase Power Generation Capacity Coalition agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward divided into multiple clamps (80B) tightening lens (2d) is provided as a set to provide friction loss reduction means (3) aiming at increasing power generation Various energy of the power generation method in which opposing series all moving blade springing car water turbine and opposed series all moving wing moving wheel gas turbine are provided in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward from existing materials selected long lens (2d) long power generation Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select sunlight from the existing lens cross section with selected cross section lens (2d) Various energy conservation of the power generation method provided with multistage opposed all-in-line all-wheels wheeled water turbine and all-in-line all-swing all-in-line all-wheels wheeled gas turbine with friction loss reduction means (3) aiming to increase concentrated power generation in water (52b) pipe Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) Internal heat air compression heat recovery + Evaporative explosion force + add gravity acceleration in the vacuum vertically accelerated downwards to a vacuum near the adiabatic long lens (2d) and the sun Opposite in-line all-blades-impeller-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining light at right angles and various energy of electric power generation method with multi-stage opposed-in-series all-blade-impeller-wheel gas turbine installed in multiple stages Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split clamp (80B) tightening long lens Various power generation methods provided with multistage opposed all-in-line rotor ballistic wheel water turbine / opposed series all-in-line all-wheel rotor ballistic wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat air compression heat recovery + Evaporative explosion power + add gravitational acceleration vertically accelerated downward, split and clamp (80B) clamp An electric power generation method in which a plurality of opposed series all moving blade springing car water turbines and an opposed series all moving wing elastic wheeled gas turbine are provided in multiple stages equipped with a plurality of long lenses (2d) as a set to provide friction loss reducing means (3) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left upside down + solar light heater (2) internal heat air compression heat recovery + vaporization explosive force + add gravitational acceleration vertically accelerated downward from existing materials selected lens long lens (2d) Various energy preservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat compression heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction Accelerate vertically downward and select cross section lens from existing lens cross section (2d) An electric power generation method provided with multistage opposed all-in-line rotor ball-spring water turbines and opposite-series all-in-line rotor blade elastic-ball turbine gas turbines provided with friction loss reduction means (3) aiming to increase concentrated power generation amount to sunlight (water tube 52b) pipe Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the left and right up and down + solar light heater (2) internal heat air compression heat recovery + evaporation explosion power in vacuum + additional gravity acceleration vertically accelerated down, the part near the vacuum heat insulation long lens (2d And friction loss reduction means (3) aiming at increasing power generation by maintaining the sunlight at right angles and close to each other, all power generation method including multistage opposed blade all-wheels ball water turbine and opposed series all bladed ball elastic wheels gas turbine The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + evaporation in the vacuum + acceleration of gravity acceleration is added vertically downward to increase the width of the long lens (2d) tightening the split fastener (80B) Various energy storage cycle coalescing engines of power generation methods provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + acceleration of gravity is added vertically downward to split, split and clamp (80B) clamp multiple length lenses (2d) Various energy storage cycle combining engines of the power generation method provided with opposed-series all-blades-impeller-wheel water turbines and opposed-series-all-impeller-impeller-motors gas turbines provided in multiple stages with friction loss reduction means (3) for increasing power generation capacity.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Add internal heat air in compression heat recovery + evapo- ration vaporization power + add gravity acceleration vertically downward to increase friction from existing materials to increase power output with long lens (2d) to reduce power loss A system according to any of the above, wherein there are provided means (3), and the energy storage cycle combined engine of the power generation method in which the opposed series all moving wheel water turbine and the opposed series all moving wheel elastic wheel gas turbine are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravitational acceleration is added vertically downward to accelerate sunlight from the existing lens cross section to the water (52 b) tube with the selected cross section long lens (2 d) Various energy conservation cycle combined engines of the power generation method provided with opposed series all moving blade water turbine and opposite series all moved impeller gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) internal heat air compression heat recovery + vaporization evaporative explosion force + gravity acceleration is added vertically downward to keep the adiabatic long lens (2d) and sunlight at a right angle near the vacuum Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + vaporization evaporative force + gravitational acceleration added vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) to increase power generation Various energy conservation cycle combined engines of the electric power generation method provided with opposed series all moving blade water turbine water turbines and opposed series all moving blade elastic vehicle gas turbines provided with friction loss reducing means (3) aimed at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + vaporization evaporative force + additional gravity acceleration is accelerated vertically downward, divided into multiple fasteners (80B) tightening by providing multiple length lenses (2d) as a set to generate electricity Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Friction heat reduction means (3) aiming to increase the amount of power generation by lengthening the selected lens (2d) from existing materials by accelerating the internal air to compression heat recovery + evaporation vaporization power + gravity acceleration vertically downward in vacuum Various energy preservation cycle combination engines of the electric power generation method which provided opposite series whole moving blade spring wheel water turbine and opposite series whole moving blade spring wheel gas turbine provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat air compression heat recovery + evaporative explosion power + additional gravitational acceleration accelerated vertically downward to increase sunlight from the existing lens cross section to the water (52b) tube with selected sun lens (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air + addition of vaporization and explosion power in vacuum and acceleration of gravity acceleration vertically downward to maintain the adiabatic long lens (2d) and sunlight at a right angle near the vacuum to generate electricity Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add vaporization explosion force + Gravity acceleration in vacuum Accelerate vertically downward and divide clamp Gear (80B) Opposed series all moving blade spring wheel water turbine · Opposed series all moving blade spring wheel gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) tightened Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal heat (28a) inside the heat pump (1G) Compressive heat recovery + Evaporative explosive power + Gravity acceleration is added vertically downward to accelerate split and split Opposite in-line all moving blade bouncer water turbine · anti-in-line all moving blade bouncer equipped with friction loss reducing means (3) to increase power generation by providing a set of multiple long lenses (2d) for tightening (80B) tightening Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Right and left up and down + Solar heater (2) Internal heat (28a) with heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravity acceleration added in vacuum vertically accelerated downward from existing materials Opposite in-line all-blades-impeller-wheel water turbine · Opposed-series-all-in-all-rotor vane-impeller with gas turbines in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation by making the selected manufacturing long lens (2d) long Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added in vertical direction accelerated vertically downward, existing lens cross section Opposite in-line all-blades-impeller wheel water turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe with the selected cross-section length lens (2d) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the left and right up and down + solar light heater (2) Compress heat recovery with heat pump (1G) + internal heat (1G) + add vaporization explosion power + gravity acceleration in the vacuum Vertically accelerate downward and approach vacuum Counter-series all-blade-impacted car water turbine · counter-series all-impacted ball-impacted car equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Sunlight Heater (2) Internal Air (28a) with Heat Pump (1G) Compressive Heat Recovery + Evaporative Explosion Force + Gravity Acceleration Added in Vertical Downwards Vertically Downward, Split Fastener (80B) A) Opposed series all moving blade spring wheel water turbine · Opposed series all moving blade spring wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of the tightening long lens (2d) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Sunlight heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vacuum Add acceleration vertically downward, divide and clamp (80B) Opposite in-line all moving blade springing wheel water turbine · Opposing in-line all moving wing elastic wheel gas turbine equipped with friction loss reducing means (3) aiming at increasing power generation by providing a set of tightening multiple length lenses (2d) as a set Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration accelerated vertically downward, select manufacturing length from existing materials Various energy conservation of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming to increase power generation by making lens (2d) long Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in a vacuum to accelerate vertically downward, select cross section from existing lens cross section Multi-faced in-line all-blades-impeller wheel water turbine · anti-all-in-place all-blades-impact wheel gas turbine multistage equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to sunlight with water (52b) pipe with long lens (2d) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + solar light (2) internal heat air (28a) with heat pump (1 G) compression heat recovery + vaporization explosion power in vacuum + additional gravity acceleration vertically accelerated downward, in the part close to vacuum Counter-series all-blade-impacted car water turbine ・ Opposed-series all-swept-impeller car gas turbine equipped with thermal loss long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight at right angle near Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Add vaporization explosion force + Gravity acceleration in vacuum Accelerate vertically downward and divide clamp Gear (80B) Opposed series all moving blade spring wheel water turbine · Opposed series all moving blade spring wheel gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) tightened Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal heat (28a) inside the heat pump (1G) Compressive heat recovery + Evaporative explosive power + Gravity acceleration is added vertically downward to accelerate split and split Opposite in-line all moving blade bouncer water turbine · anti-in-line all moving blade bouncer equipped with friction loss reducing means (3) to increase power generation by providing a set of multiple long lenses (2d) for tightening (80B) tightening Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Right and left up and down + Solar heater (2) Internal heat (28a) with heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravity acceleration added in vacuum vertically accelerated downward from existing materials Opposite in-line all-blades-impeller-wheel water turbine · Opposed-series-all-in-all-rotor vane-impeller with gas turbines in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation by making the selected manufacturing long lens (2d) long Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Left and right up and down + Solar heater (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosive force + Gravity acceleration is added in vertical direction accelerated vertically downward, existing lens cross section Opposite in-line all-blades-impeller wheel water turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe with the selected cross-section length lens (2d) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the left and right up and down + solar light heater (2) Compress heat recovery with heat pump (1G) + internal heat (1G) + add vaporization explosion power + gravity acceleration in the vacuum Vertically accelerate downward and approach vacuum Counter-series all-blade-impacted car water turbine · counter-series all-impacted ball-impacted car equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and solar light in the vicinity of a right angle Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + gravity acceleration is added vertically downward to accelerate the split clamp (80B) clamp long lens Various power generation methods provided with multistage opposed all-in-line rotor ballistic wheel water turbine / opposed series all-in-line all-wheel rotor ballistic wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of (2d) Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + add vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, split and clamp (80B) clamp An electric power generation method in which a plurality of opposed series all moving blade springing car water turbines and an opposed series all moving wing elastic wheeled gas turbine are provided in multiple stages equipped with a plurality of long lenses (2d) as a set to provide friction loss reducing means (3) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating Container (2) internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to make selected long lens (2d) long from existing materials Various energy preservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine water turbine and opposing series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) aiming at increased power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Internal air (28a) with heat pump (1G) Compressive heat recovery + Evaporative explosion power + add gravity acceleration in vertical direction accelerated vertically downward and select section length lens (2d) from the existing lens section An electric power generation method provided with multistage opposed all-in-line rotor ball-spring water turbines and opposite-series all-in-line rotor blade elastic-ball turbine gas turbines provided with friction loss reduction means (3) aiming to increase concentrated power generation amount to sunlight (water tube 52b) pipe Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) Heat recovery of the internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in a vacuum, accelerated vertically downward, and the adiabatic long lens (2d) And friction loss reduction means (3) aiming at increasing power generation by maintaining the sunlight at right angles and close to each other, all power generation method including multistage opposed blade all-wheels ball water turbine and opposed series all bladed ball elastic wheels gas turbine The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power in vacuum + acceleration of gravity is added vertically downward to accelerate the split clamp (80B) of the long lens (2d) Various energy conservation cycle combination of power generation method provided with opposing series whole blade impacting wheel water turbine / opposing series full operating blade impacting wheel gas turbine in multiple stages equipped with friction loss reducing means (3) aiming at increasing power generation amount by increasing width organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Internal heat (28a) compressed heat recovery with heat pump (1G) + vaporization and explosion power + additional gravity acceleration in vertical direction accelerated vertically downward to divide and clamp multiple clamp lenses (80B) Various energy conservation of the power generation method provided with opposed series all moving blade spring wheel water turbine and opposed series all moving wing elastic wheel gas turbine provided in multiple stages by providing friction loss reducing means (3) aiming to increase power generation by providing 2d) as a set Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization and explosion power + addition of gravitational acceleration in vacuum vertically accelerated downward from existing materials to increase power generation by making selected lens (2d) longer Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat the internal air (28a) with a heat pump (1G) + add evaporative explosion power + gravity acceleration in a vacuum + accelerate vertically downward to make the water of sunlight with a cross section lens (2d) from the existing lens cross section (52b) Various energy storage cycles of a power generation method in which opposed series all moving blades water turbine and opposed series all moving blades gas turbine are provided in multiple stages with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe Coalition agency.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Heat recovery of internal air (28a) by heat pump (1G) + vaporization explosion power + additional gravity acceleration in a vacuum vertically accelerated downward to a vacuum, close to the vacuum a long lens (2d) and sunlight The energy saving of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the power at near right angle Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation by friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Counterpart in-line all moving blade spring wheel water equipped with friction loss reduction means (3) aiming to increase power generation by providing a set of multiple lenses (2d) that are divided and tightened (80B) by tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) The opposing series whole blade bouncing car water turbine and the opposing series whole blade bouncing car gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by selecting long lens (2d) selected from existing materials Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Facing in-line all moving blade spring wheel water turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to the water (52b) tube by accelerating the sun to the water (52b) tube with selected lens length section (2d)・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Counter-rotary bladed wheel water wheel equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and solar light at right angle in a part close to vacuum and accelerating to Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward Facing each other, all the blades are equipped with friction loss reducing means (3) for increasing the width of the long lens (2d) for tightening the split clamp (80B), and the opposing wheel is a water turbine. Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward Opposite in-line all moving blade resilient wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) by clamping and fastening (80B) tightening Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward In order to increase power generation capacity by selecting long lenses (2d) selected from existing materials, the opposed series all moving blade water turbine and the opposite series all moving blade elastic wheel gas turbine are equipped with multistage friction blade reduction means (3) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward In order to increase the amount of concentrated power generation to increase the amount of power generation to the sunlight with water (52b) tube with selected lens section cross lens from existing lens cross section facing opposite series all moving blade springing wheel water turbine equipped with facing loss series (3) Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Solar light heater (2) (2b) Heat the water (52b) with compressed water heat exchanger (2Y) with internal air (28a) + Evaporative explosion power + add gravity acceleration in a vacuum and accelerate vertically downward Opposite series all moving blade spring wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle near the vacuum Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) To increase the width of the long lens (2d) by tightening the split clamp (80B) to increase power generation by friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Counterpart in-line all moving blade spring wheel water equipped with friction loss reduction means (3) aiming to increase power generation by providing a set of multiple lenses (2d) that are divided and tightened (80B) by tightening Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) The opposing series whole blade bouncing car water turbine and the opposing series whole blade bouncing car gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by selecting long lens (2d) selected from existing materials Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Facing in-line all moving blade spring wheel water turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to the water (52b) tube by accelerating the sun to the water (52b) tube with selected lens length section (2d)・ Various energy storage cycle combined engine of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in the vacuum + vertically below the solar heater (2) (2b) internal air (28a) Counter-rotary bladed wheel water wheel equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and solar light at right angle in a part close to vacuum and accelerating to Various energy preservation cycle combined engines of the power generation method which installed the turbine and opposed series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum, accelerate vertically downward, split fastener (80B) Opposite in-line all-blades-collaring wheel water turbine · Opposing-series-all-rotor all-wheels bogie-milling gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of the tightening long lens (2d) Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add evaporative explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and tighten Opposite in-line all-blades-impeller wheel water turbine · anti-all-in-line all-blades-impact wheel-bumping car gas equipped with friction loss reducing means (3) aiming at increasing power generation by providing a set of multiple long lenses (2d) tightening with accessories (80B) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed air heat exchanger (2Y) with internal air (28a) + add evaporative explosion power + gravitational acceleration in a vacuum and accelerate vertically downward to select from existing materials A variety of power generation methods in which opposing series full bucket spring wheel water turbines and opposing series full bucket wheel flywheels gas turbines are provided in multiple stages equipped with friction loss reduction means (3) aiming to increase power generation by making the production long lens (2d) long Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + add the vaporization explosion power + gravity acceleration in a vacuum and accelerate vertically downward from the existing lens cross section Opposite in-line all-blades-impacted wheel water turbine · Opposed-series all-impacted all-in-wing all-impacted wheel gas turbine gas turbine equipped with friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) pipe with selected cross-section length lens (2d) Various energy storage cycles combined engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) with internal air (28a) + evaporative explosive force + additional gravity acceleration in the vacuum and accelerate vertically downward to bring it close to the vacuum Opposite in-line all moving blade springing car water turbine · facing in-line all moving wing springing car gas equipped with thermal loss long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight at right angle near Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) in the compressed water heat exchanger (2Y) + internal pressure of the internal air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to clamp the split fastener (80B) Counter-series all-rotor-wheel-spring water turbine · anti-series-all-rotor wing-impeller-motor gas turbine provided with friction loss reduction means (3) for increasing power generation by increasing the width of attached long lens (2d) Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + evaporative explosion power + gravitational acceleration in the vacuum + add vertical acceleration vertically and divide to divide the fastener (80B A multistage counter-rotary all-rotor water-impact wheel water turbine with an anti-all-round all-rotor all-wheel rotary-impact wheel gas turbine equipped with multiple tightening length lenses (2d) as a set to increase power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + add vaporization explosion power + gravitational acceleration in vacuum + add vacuum acceleration vertically downward to make long lens selected from existing materials Various energy preservation cycle combination of the power generation method which installed the opposing series whole bucket spring wheel water turbine and the counter series whole wing blade flywheel car gas turbine provided with friction loss reduction means (3) aiming at power generation increase by lengthening 2d). organ.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to select the selected lens from the existing lens cross section (2d) Opposite in-line all-wheels bounce wheel water turbine · face-to-roll all-in-round all-wheels bounce wheel gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe in multiple stages Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with the compressed water heat exchanger (2Y) + internal pressure of the air (28a) + add the vaporization explosion power + gravity acceleration in the vacuum vertically and accelerate vertically downward to adiabatic areas near the vacuum Opposite in-line all-blade-impact wheel water turbine · Opposed-series all-blade all-impact ball spring vehicle gas turbine with multiple stages of friction loss reduction means (3) aiming to increase power generation by maintaining long lenses (2d) and sunlight at near right angles Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Facing each other, all the blades are equipped with friction loss reducing means (3) for increasing the width of the long lens (2d) for tightening the split clamp (80B), and the opposing wheel is a water turbine. Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Opposite in-line all moving blade resilient wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) by clamping and fastening (80B) tightening Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase power generation capacity by selecting long lenses (2d) selected from existing materials, the opposed series all moving blade water turbine and the opposite series all moving blade elastic wheel gas turbine are equipped with multistage friction blade reduction means (3) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase the amount of concentrated power generation to increase the amount of power generation to the sunlight with water (52b) tube with selected lens section cross lens from existing lens cross section facing opposite series all moving blade springing wheel water turbine equipped with facing loss series (3) Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Opposite series all moving blade spring wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle near the vacuum Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to divide Opposite in-line all-blades-impeller wheel water turbine · anti-all-in-line all-impact rotor-wheel bouncer equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of tightening lens (80B) tightening long lens (2d) Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to divide Fastening tool (80B) Fastening multi-long lens (2d) is provided as a set to increase the power output with friction loss reducing means (3) Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the existing Select power from materials Select long lens (2d) long and equipped with friction loss reduction means (3) for increasing power generation with power generation How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the existing Opposite in-line all moving blades Bumping wheel water turbine equipped with friction loss reducing means (3) aiming to increase the concentrated power generation to the water (52b) pipe with selected cross-section length lens (2d) from lens cross section Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Heat + water (52b) with compressed air heat (28b) of internal air heat amount + add vaporization explosion power + gravity acceleration vertically downward to accelerate the vacuum Facing each other, equipped with adiabatic long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight at a right angle near each other. Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Facing each other, all the blades are equipped with friction loss reducing means (3) for increasing the width of the long lens (2d) for tightening the split clamp (80B), and the opposing wheel is a water turbine. Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Opposite in-line all moving blade resilient wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) by clamping and fastening (80B) tightening Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase power generation capacity by selecting long lenses (2d) selected from existing materials, the opposed series all moving blade water turbine and the opposite series all moving blade elastic wheel gas turbine are equipped with multistage friction blade reduction means (3) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward In order to increase the amount of concentrated power generation to increase the amount of power generation to the sunlight with water (52b) tube with selected lens section cross lens from existing lens cross section facing opposite series all moving blade springing wheel water turbine equipped with facing loss series (3) Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the compressed air heat (28b) of the heat of the inside air + add the vaporization explosive power + gravity acceleration in the vacuum + accelerate vertically downward Opposite series all moving blade spring wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle near the vacuum Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat air (28b) with heat of internal air Heat water (52b) + add vaporizing power + gravitational acceleration in vacuum and accelerate vertically downward, divided fastener (80B) Opposite in-line all-blades-impeller wheel water turbine · Opposed-series all-blade-impeller all-impact wheel gas turbine is provided in multiple stages equipped with friction loss reduction means (3) to increase the width of the tightening long lens (2d) to increase power generation Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the compressed air heat (28b) of the heat of the inside air heat (28b) Add the vaporization explosion power + gravity acceleration in the vacuum + add vacuum acceleration vertically downward, divide and clamp 80B) Opposite in-line all-blade-impact wheel water turbine · Opposed-series all-impact all blade spring-impact vehicle gas turbine equipped with a plurality of tightening long lenses (2d) as a set to provide friction loss reduction means (3) to increase power generation Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) internal air heat compressed air heat (28b) heat the water (52b) in the vacuum + add the vaporization explosion power + gravity acceleration in the vacuum vertically accelerated downward, to produce a long lens selected from existing materials Various energy storage cycles of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines provided with friction loss reduction means (3) aiming to increase power generation by making (2d) longer Coalition agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the compressed air heat (28b) by the amount of heat of the inside air Heat the water (52b) + add the vaporization explosion power + gravity acceleration in the vacuum and accelerate vertically downward to select the selected cross section length from the existing lens cross section Opposite in-line all-wheels bounce wheel water turbine · face-to-face all-in-roll all-wheels bounce wheel gas turbine with multiple stages of friction loss reduction means (3) aiming to increase concentrated power generation to water (52b) tube with lens (2d) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to adiabatic part near the vacuum Longitudinal Series All Rotor Water-Brushing Car Water Turbine · Opposing Series All Rotor Air-Brushing Wheel Gas Turbine Multistage Equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining the long lens (2d) and sunlight at right angle near Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravity acceleration in a vacuum and accelerate vertically downward to lengthen the split clamp (80B) clamp Counter-series all-moving blade spring wheel water turbine · counter-series all-wheel blade spring wheel gas turbine provided with friction loss reducing means (3) for increasing power generation by increasing the width of the lens (2d) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization and explosion power + gravitational acceleration in the vacuum and accelerate vertically downward to divide and clamp the fastener (80B) Multi-length lenses (2d) are provided as a set to provide friction loss reduction means (3) aiming at increasing power generation Power generation with multi-stage opposed blade all-wheels wheeled water turbines and counter-series all-bladed wheeled gas turbines provided in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporization explosion power + gravitational acceleration vertically in vacuum and accelerate vertically downward to make the selected production long lens (2d) from existing materials Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation as long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + add vaporizing explosive power + gravitational acceleration vertically in a vacuum and accelerate vertically downward to select cross section lens from existing lens cross section (2d) Power generation method with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reduction means (3) aiming to increase concentrated power generation amount to the water (52b) tube The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) of internal air heat + vaporize explosive power + gravity acceleration in the vacuum + accelerate vertically downward, and adiabatic long lens in the part close to the vacuum ( Power generation with multiple opposed blade all-wheels ball water turbines and opposed series all-wafer balled wheels gas turbines installed in multiple stages equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining 2d) and solar light in the vicinity of a right angle How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In this case, the opposing series all moving blade resilient wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the split fastener (80B) and the length of the long lens (2d) facing each other Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Counter-series all-blade flexible-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) that are divided and tightened (80B) and tightened Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by selecting long lenses (2d) selected from existing materials, the opposed series all moving blade water spring car water turbine and the opposed series all moving blade spring car gas turbine are equipped with friction loss reduction means (3) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase the amount of concentrated power generation to increase the amount of power generated by the sunlight to the water (52b) tube from the existing lens cross section, the opposing series all moving blade springing water turbine water turbine facing Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Counter-series all-blade flexible wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle near the vacuum. Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Opposite in-line all moving blade springing wheel water turbine · facing in-line all moving blade equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of long lens (2d) tightening with split fastener (80B) Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Opposite in-line all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) for tightening by clamp (80B) tightening as a set Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Counter-series all-wheels ball-wheel water turbine · counter-series all-blade ball-wheels gas turbines equipped with friction loss reduction means (3) aiming to increase power generation by selecting a long lens (2d) selected from existing materials Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Opposite in-line all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase the concentrated power generation to the water (52b) pipe with the selected section long lens (2d) from the existing lens cross section Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat (28b) + fuel injection combustion + add vaporization explosion power + gravity acceleration in vacuum and accelerate vertically downward, Opposite in-line all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and solar light at right angle in a part close to vacuum and facing in-line all Various energy storage cycle combined engine of power generation method which installed rotor gas spring gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In this case, the opposing series all moving blade resilient wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the split fastener (80B) and the length of the long lens (2d) facing each other Various energy storage cycle combined engine of power generation method which installed all moving wing boulder gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Counter-series all-blade flexible-wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) that are divided and tightened (80B) and tightened Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase power generation by selecting long lenses (2d) selected from existing materials, the opposed series all moving blade water spring car water turbine and the opposed series all moving blade spring car gas turbine are equipped with friction loss reduction means (3) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum In order to increase the amount of concentrated power generation to increase the amount of power generated by the sunlight to the water (52b) tube from the existing lens cross section, the opposing series all moving blade springing water turbine water turbine facing Various energy conservation cycle combined engines of power generation method which installed in series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) Heat the water (52b) with the sunlight heater (2) (2b) compressed air heat quantity (28b) + fuel injection combustion + add vaporization explosion power + gravitational acceleration in vacuum Counter-series all-blade flexible wheel water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle near the vacuum. Various energy storage cycle combined engines of the power generation method which provided the counter-series all moving blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward, split fastener (80B A) Opposed series all moving blade spring wheel water turbine · Opposed series all moving blade spring wheel gas turbine equipped with friction loss reduction means (3) aiming at increasing power generation by increasing the width of the tightening long lens (2d) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporize explosive power + gravity acceleration in vacuum add acceleration vertically downward to divide and clamp (80B) Opposite in-line all moving blade springing wheel water turbine · Opposing in-line all moving wing elastic wheel gas turbine equipped with friction loss reducing means (3) aiming at increasing power generation by providing a set of tightening multiple length lenses (2d) as a set Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward and select manufacturing length from existing materials Various energy conservation of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-wafer bladed wheel gas turbines equipped with friction loss reduction means (3) aiming to increase power generation by making lens (2d) long Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + Fuel injection and burn it + add vaporizing explosive power + gravitational acceleration in vacuum and accelerate vertically downward to select cross section from existing lens cross section Multi-faced in-line all-blades-impeller wheel water turbine · anti-all-in-place all-blades-impact wheel gas turbine multistage equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to sunlight with water (52b) pipe with long lens (2d) Various energy storage cycle combination engine of the power generation method provided in.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection combustion + vaporization evaporative force + gravity acceleration in vacuum add acceleration vertically downward to the part near the vacuum Counter-series all-blade-impacted car water turbine ・ Opposed-series all-swept-impeller car gas turbine equipped with thermal loss long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight at right angle near Various energy storage cycle combination engine of power generation method provided in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive force + gravitational acceleration in vacuum add acceleration vertically downward to clamp the split fastener (80B) Power generation method with multistage opposed blade all-wheels wheeled water turbines and opposed series all-wheeled bladed wheeled gas turbines provided with friction loss reduction means (3) for increasing power generation by increasing the width of long lenses (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward to divide and clamp the fastener (80B) Counter-series all-blades-impeller-wheel water turbine · Counter-series-all-blade-impeller-impeller-motor gas turbines are provided in multi-stages with friction loss reduction means (3) with multiple long lenses (2d) attached as a set to increase power generation. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel injection and burn it + vaporize explosive power + gravitational acceleration in vacuum add acceleration vertically downward, select lens made from existing material, long lens (2d) Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving blade elastic cars gas turbines provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation amount by making long.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat the water (52b) with compressed air heat (28b) + fuel-injection-combustion + add vaporization and explosion power + gravitational acceleration in vacuum + accelerate vertically downward to select a lens from the existing lens cross-section Power generation with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) tube How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) (2b) Heat water (52b) with compressed air heat (28b) + fuel injection and burn + vaporize explosive power + add gravitational acceleration in vacuum vertically accelerating downward, and adiabatic long lens near the vacuum (2d) and friction loss reduction means (3) for maintaining the solar light in the vicinity of a right angle to increase power generation capacity. Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosion power maximum with the solar heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating vertically downward, the length of the split clamp (80B) clamp Counter-series all-moving blade spring wheel water turbine · counter-series all-wheel blade spring wheel gas turbine provided with friction loss reducing means (3) for increasing power generation by increasing the width of the lens (2d) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosion power with the sun light heater (2) + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, divide and tighten the clamp (80B) Multi-length lenses (2d) are provided as a set to provide friction loss reduction means (3) aiming at increasing power generation Power generation with multi-stage opposed blade all-wheels wheeled water turbines and counter-series all-bladed wheeled gas turbines provided in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the left and right up and down + increase the vaporization explosive power with the sun light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating vertically downward, select manufacturing long lens (2d) from existing materials Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation as long.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explosive power maximum with the solar light heater (2) + add the vaporization explosive power + gravitational acceleration in a vacuum, accelerate vertically downward, select cross section lens from the existing lens cross section (2d) Power generation method with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reduction means (3) aiming to increase concentrated power generation amount to the water (52b) tube The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電冷熱(52e)で氷を製造する設備方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Cold Heat (52e) Equipment Method to Produce Ice + Heat Resistant Material (2A) Heat Insulating Material (2c) A Solar Heat Augmentation Suspension Bridge (2b) Including a Half-Circular Outer Box (77B) In the right and left up and down + increase the vaporization explode force with the sun light heater (2) + add evaporative explode force + gravitational acceleration in vacuum add vertical acceleration vertically and adiabatic long lens in the part close to vacuum Power generation with multiple opposed blade all-wheels ball water turbines and opposed series all-wafer balled wheels gas turbines installed in multiple stages equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining 2d) and solar light in the vicinity of a right angle How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum vertically accelerating downward and split clamp (80B) tightening long lens (2d The energy conservation of the power generation method provided with multistage opposed blade all-wheels wheel water turbines and opposed series all-blades wheeled wheel gas turbines equipped with friction loss reduction means (3) aiming to increase power generation width to increase power generation capacity Cycle coalescing agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization explosion power maximum with + solar light heater (2) + add the vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward, split and clamp multiple lengths of clamp (80B) A variety of power generation methods provided with opposed series all moving blade impacting wheel water turbines and opposed series all moving blade impacted ball gas turbines provided in multiple stages with the lens (2d) provided as a set and equipped with friction loss reducing means (3) aiming at increasing power generation. Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate vertically downward and select power from existing materials by using a long lens (2d) for power generation Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) Increase the vaporization and explosion power maximum with + solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum vertically accelerate downward vertically and select sunlight from the existing lens cross section with the selected cross section lens (2d) The energy of the power generation method provided with multistage opposed all-in-line all-wheels ball turbine water turbines and anti-all-in-line all-blades wheeled ball turbines gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to water (52b) pipe Preservation cycle union agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic Power Generation All-in-One Facility Method for Repeatedly Using Condensed Water + Solar Power Augmentation Suspension Bridge (2b) Longened by Fittings (80A) Solar Heat Augmentation Suspension Bridge (2b) + Increase the vaporization and explosion power at maximum with the solar light heater (2) + Add the vaporization and explosion power + gravity acceleration in vacuum Vertically accelerate vertically downward, and adiabatic long lens (2d) with the part close to the vacuum A variety of power generation methods provided with multistage opposed rotating all-wheels bogie water turbines and opposed series all-rotating all-bottled wheeled gas turbines provided with friction loss reducing means (3) aiming to increase power generation by maintaining sunlight near right angle Energy Conservation Cycle Coalition Agency.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosion power maximum with the solar heater (2) + add vaporization explosion power + gravitational acceleration in vacuum vertically accelerating vertically downward, the length of the split clamp (80B) clamp Counter-series all-moving blade spring wheel water turbine · counter-series all-wheel blade spring wheel gas turbine provided with friction loss reducing means (3) for increasing power generation by increasing the width of the lens (2d) Various energy conservation cycle union engine.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosion power with the sun light heater (2) + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, divide and tighten the clamp (80B) Multi-length lenses (2d) are provided as a set to provide friction loss reduction means (3) aiming at increasing power generation Power generation with multi-stage opposed blade all-wheels wheeled water turbines and counter-series all-bladed wheeled gas turbines provided in multiple stages How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the left and right up and down + increase the vaporization explosive power with the sun light heater (2) + add the vaporization explosive power + gravitational acceleration in vacuum vertically accelerating vertically downward, select manufacturing long lens (2d) from existing materials Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation as long.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explosive power maximum with the solar light heater (2) + add the vaporization explosive power + gravitational acceleration in a vacuum, accelerate vertically downward, select cross section lens from the existing lens cross section (2d) Power generation method with multistage opposed bladed wheel water turbine and opposed series all bladed wheeled gas turbine in multiple stages equipped with friction loss reduction means (3) aiming to increase concentrated power generation amount to the water (52b) tube The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電全動翼水タービンの復水を繰り返し使用する設備方法+締付具(80B)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Photovoltaic All-Winger System Repetitive Use of Condensing Water + Solar Power Augmentation Suspension Bridge (2b) Solar System Augmented Suspension Bridge (2b) with Vacuum Fastening Tool (80B) In the right and left up and down + increase the vaporization explode force with the sun light heater (2) + add evaporative explode force + gravitational acceleration in vacuum add vertical acceleration vertically and adiabatic long lens in the part close to vacuum Power generation with multiple opposed blade all-wheels ball water turbines and opposed series all-wafer balled wheels gas turbines installed in multiple stages equipped with friction loss reduction means (3) aiming at increasing power generation by maintaining 2d) and solar light in the vicinity of a right angle How various energy conservation cycles coalesced agencies.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the container (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to increase the width of the split lens (80B) clamping long lens (2d) Various energy storage cycle coalescing engines of the power generation method in which opposed series all moving blades water turbine and opposed series all moved impeller gas turbines are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the vacuum vessel (2) + the vaporization explosion power + gravitational acceleration is added vertically in vacuum and accelerated vertically downward to divide and set the multiple length lens (2d) of the clamp (80B) clamp Various energy storage cycle combining engines of the power generation method provided with the opposed series all moving blades water turbine and the opposite series all moved impeller gas turbines provided in multiple stages and equipped with friction loss reducing means (3) for increasing power generation amount.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the container (2) + the vaporization explosion power + gravity acceleration is added vertically in vacuum and accelerated vertically downward, and the friction loss is aimed at increasing the power output by making the selected manufacturing long lens (2d) longer from existing materials An energy storage cycle coalesced engine of a power generation method in which an opposed series all moving blade water turbine water turbine and an opposed series all moving blade elastic wheel gas turbine having reduction means (3) are provided in multiple stages.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is increased to the maximum + the evaporation explosion power + gravitational acceleration is added vertically downward in the vacuum chamber (2) and the sunlight is accelerated by the vertical cross section from the existing lens cross section with the selected cross section lens (2d) Various energy conservation cycle combined engines of power generation method provided with opposing series all moving blade water turbine and opposing series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated power generation.
理論最良エンジン水力空気力太陽光発電過熱蒸気温熱(52d)をメタンハイドレートに注入する設備方法+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aerodynamic Photovoltaic Generation Method of superheated steam (52d) injection into methane hydrate + Completely electrified residential building + Solar heat augmentation Suspension bridge (2b) with left and right ups and downs + Solar heating The vaporization explosion power is maximized in the vessel (2) + the vaporization explosion power + gravity acceleration is added vertically downward in vacuum and accelerated vertically downward, and the adiabatic long lens (2d) and sunlight are in the vicinity of a right angle Various energy conservation cycle combined engines of power generation method provided with opposed series all moving blade water turbine and opposed series all moving blade elastic car gas turbines provided with friction loss reducing means (3) for maintaining power generation amount increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Increase the power generation amount by increasing the width of the long lens (2d) by tightening the split clamp (80B) by accelerating the vaporization explosion power + gravitational acceleration vertically downward in the maximum + vaporization in the vacuum Various energy storage cycle coalescing engines of a power generation method provided with opposed series all moving blade water turbines and opposed series all moving impellers wheel gas turbines provided with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative explosion power maximum increase + Evaporative explosion power + gravitational acceleration is added vertically in a vacuum to accelerate vertically divided, divided into multiple fasteners (80B) tightening by providing multiple lenses (2d) as a set to generate electricity Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative explosion power maximized + Evaporative explosion power + gravity acceleration added vertically in vacuum Vertically accelerated downward from existing materials Select the manufacturing long lens (2d) to aim at increased power generation with friction loss reduction measures (3 A variety of energy storage cycle combining engines of the power generation method provided with an opposed series all moving blade water turbine and an opposed series all moving blade gas turbine arranged in multiple stages.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative explosion power maximum increase + Evaporative explosion power + gravitational acceleration added vertically in vacuum accelerated vertically downward, from the existing lens cross section to the selected cross section long lens (2d) concentrated sunlight to water (52b) tube Various energy storage cycle coalescing engines of power generation methods provided with opposed series all blade impact vehicle water turbines and opposed series effect overall blade impact vehicle gas turbines provided with friction loss reduction means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電温熱冷熱配管ビル類とする設備方法+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical Best Engine Hydro-Aeropower Photovoltaic Power Generation Thermal Cooling Pipe Building Method + Storage Battery Drive Various Motor Vehicles + Solar Heat Augmentation Suspension Bridge (2b) with Left and Right Ups and Downs + Solar Heater (2) Evaporative Explosive Force Maximize + Add Evaporative Explosive Force + Gravity Acceleration Upward in Vacuum Accelerate vertically downward and maintain the adiabatic long lens (2d) and sunlight at a right angle near the area near the vacuum to generate electricity Various energy storage cycle coalescing engines of the power generation method provided with opposed series all moving blade water turbines and opposed series all moved impeller gas turbines in multiple stages equipped with friction loss reducing means (3) aiming at increased quantity.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic long-length lens (2d) width increase to collect sunlight + vaporization evaporative force + gravity acceleration in vacuum add vertical downward acceleration, split clamp (80B ) A series of all-rotor blade-impact wheel water turbine · An in-line all-rotor blade-impact wheel gas turbine equipped with friction loss reduction means (3) for increasing power generation by increasing the width of the tightening long lens (2d) Energy storage cycle combination engine of power generation method.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best Engine Hydropower Solar power Photovoltaic long lens (2d) to increase the width of the solar light collecting method + evaporation in the vacuum + force of gravity + acceleration of gravity add vertically downward, split and clamp (80B) A series of all moving blade bouncer water turbine and a series all moving blade bouncer gas turbine, equipped with a plurality of fixed length lenses (2d) as a set and equipped with friction loss reduction means (3) to increase power generation Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power Photovoltaic power generation long lens (2d) width increase and collect solar light + add evaporative explosion power + gravity acceleration in vacuum vertically accelerated downward, select manufacturing length from existing materials Various energy preservation cycle combination of the power generation method which installed in series all moving blade spring wheel water turbine and in series all moving blade spring wheel gas turbine equipped with friction loss reduction means (3) aiming at power generation increase by making lens (2d) long. organ.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro aerodynamic power Solar power generating long lens (2d) to increase the width of solar light collecting method + add evaporative explosion power + gravitational acceleration in vacuum vertically accelerated downward, from the existing lens cross section A series of all moving blade bouncer water turbine and a series all moving blade bouncer gas turbine are provided in multi-stage equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to sunlight by water (52b) tube with long lens (2d) Energy storage cycle combined engine of different power generation methods.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)の幅を増大して太陽光を集める方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro aerodynamic power Solar power method of increasing the width of the long lens (2d) to collect sunlight + add the vaporization explosion power + gravity acceleration in vacuum add acceleration vertically downward, in the part close to the vacuum A series of all moving blade springing car water turbine · A series all moving blade springing car gas turbine with multiple stages of all moving wing water turbine and series all moving wing elastic wheel gas turbine equipped with thermal loss long lens (2d) and friction loss reduction means (3) Various energy storage cycle combination engine of the power generation method provided.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Series whole blade bouncing car water turbine · series whole blade bouncing car gas gas equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Series all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) tightening the tightening tool (80B) tightening as a set; Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, An electric power generation method in which an in-line all moving blade water-milling water turbine and a series all moving blade elastic-wheeling gas turbine are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation by making long lenses selected from existing materials (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, From the existing lens section to the sunlight (water tube 52b) pipe with selected cross section lens (2d) Aiming at increase of the concentrated electric energy generation In-line all-blades bounce wheel water-mass turbine Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Series all buckets bounce ball water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle in a part close to vacuum, series whole blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Series whole blade bouncing car water turbine · series whole blade bouncing car gas gas equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle combined engine of the power generation method which provided the turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Series all moving blade springing wheel water turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing a set of multiple long lenses (2d) tightening the tightening tool (80B) tightening as a set; Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, An electric power generation method in which an in-line all moving blade water-milling water turbine and a series all moving blade elastic-wheeling gas turbine are provided in multiple stages equipped with friction loss reducing means (3) aiming to increase power generation by making long lenses selected from existing materials (2d) The various energy conservation cycle coalescing agencies.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, From the existing lens section to the sunlight (water tube 52b) pipe with selected cross section lens (2d) Aiming at increase of the concentrated electric energy generation In-line all-blades bounce wheel water-mass turbine Various energy storage cycle combined engine of the power generation method which provided the gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電長レンズ(2d)で太陽光を線状に集める方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Method of collecting solar light linearly with theoretical best engine hydraulic aerodynamic power solar power long lens (2d) + solar light heater (2) + additional vaporization explosion power + gravitational acceleration in a vacuum, accelerating vertically downward, Series all buckets bounce ball water turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining adiabatic long lens (2d) and sunlight at a right angle in a part close to vacuum, series whole blades Various energy storage cycle combined engine of the power generation method which provided the spur wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of the long lens (2d) for tightening the split clamp (80B) to achieve full power generation with friction loss reduction means (3) for increasing power output Various energy preservation cycle combined engines of power generation method which installed wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward and divided into a plurality of lenses (2d) with a plurality of clamps (80B) and a plurality of clamps (80B) tightened to provide a set of friction loss reduction means (3) for increasing power generation. Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward, and selected loss lenses (2d) made from existing materials are made longer to increase power generation with friction loss reduction means (3) equipped with a series of all moving blade springing car water turbine · series full motion Various energy storage cycle combined engine of power generation method which installed wing bounce car gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Gravity acceleration is accelerated vertically downward, and the entire lens is equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation to the water (52b) tube from the existing lens cross section with the selected cross section lens (2d) Various energy preservation cycle combined engines of power generation method which installed the rotor blade spring wheel water turbine and series all rotor blade spring wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compressed heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make up to the sea + solar heater (2) + vaporization explosion power in vacuum + Additional gravity acceleration is accelerated vertically downward, and a series of equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the adiabatic long lens (2d) and sunlight near a right angle in the part close to vacuum Various energy conservation cycle combined engines of power generation method which installed all moving wing bounce wheel water turbine and series all moving wing bounce wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Friction loss reduction means (3) aiming to increase power generation by increasing the width of the long lens (2d) by tightening the split explosion tool (80B) by vertically adding the vaporization explosion power + gravitational acceleration vertically downward. Various energy preservation cycle combined engines of the power generation method which installed in series all moving blade springing car water turbine and in series all moving wing moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) Increase the power generation amount by increasing the width of the long lens (2d) tightening the split clamp (80B) by accelerating the compression heat recovery + evaporation vaporization power + gravitational acceleration vertically downward in (1 G) + vacuum Various energy conservation cycle combined engines of the power generation method provided with in-line all moving blade elastic wheel water turbine and in-line all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravity acceleration in vacuum + accelerate vertically downward, split clamp (80B) clamp of long lens (2d) Various energy conservation cycle combined engines of the power generation method provided with a series all moving blade water turbine water turbine and a series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) for increasing power generation amount by increasing width.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to increase the width of the long lens (2d) tightening the split clamp (80B) Various energy storage cycle coalescing engines of a power generation method provided with a series all moving blade water turbine and a series all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) for increasing power generation amount.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in +) Fuel injection and combustion + Vaporize explosive power + add gravity acceleration in a vacuum Accelerate vertically downward to make the width of the split lens (2B) tightened with the split fastener (80B) Various energy conservation cycle combined engines of power generation method provided with a series all moving blade water turbine water turbine and a series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) for increasing power generation amount increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum A means to reduce friction loss to increase power generation by providing a set of multi-length lenses (2d) by tightening the clamp (80B) by dividing vertically and adding vertically downward the vaporization explosion force + gravitational acceleration in the inside 3) Various energy conservation cycle combined engines of power generation method provided with in-line all moving blade impacting wheel water turbine and in-line all moving blade impacting wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravity acceleration in a vacuum, accelerate vertically downward to divide, and provide multiple long lenses (2d) of clamp (80B) clamp as a set to generate electricity Various energy storage cycle coalescing engines of a power generation method provided with a series all blade impact vehicle water turbine and a series all blade impact vehicle gas turbine provided in multiple stages equipped with friction loss reduction means (3) aiming at an increase in amount.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravitational acceleration in a vacuum + accelerate vertically downward to divide and clamp the clamp (80B) with multiple lenses 2d) A set of friction loss reduction means (3) for increasing power generation by setting a set of 2w) Series all moving blade spring wheel water turbine · Series all moving blade spring wheel gas turbine Various energy preservation cycle combination of electric power generation method provided in multiple stages organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to divide and divide the multiple length lens (2d) of the clamp (80B) clamp Various energy preservation cycle combined engines of the power generation method which provided in series and equipped with friction loss reduction means (3) aiming at power generation amount increase, and installed all series blade moving wheel water turbine and series all moving blade upper wheel rolling wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in +) Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum and accelerate vertically downward to divide and clamp the clamp (80B) with multiple length lenses (2d) Various energy preservation cycle combined engines of the power generation method which provided in series and equipped with friction loss reduction means (3) aiming at power generation amount increase in series all moving blade water turbine water turbine ・ series all moving blade elastic wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum In-line all-wheel blade bounce wheel equipped with friction loss reduction means (3) aiming to increase power generation capacity by adding vaporization explosion power + gravitational acceleration vertically downward to make selected lenses (2d) longer from the existing materials Various energy conservation cycle combined engines of power generation method that water turbine · series all moving blade spring wheel gas turbine is provided in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) Friction heat reduction means (3G) to increase power output by compression heat recovery + addition of vaporization explosion power + gravity acceleration in vacuum in vertical direction and accelerating vertically downward from the existing material to make the selected long lens (2d) longer. Various energy preservation cycle combination engines of the power generation method which provided in-series all the bucket moving wheel water turbine and the series all bucket moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat water (52b) with compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downward to increase power generation by making selected lens long lens (2d) from existing materials Various energy conservation cycle combined engines of the power generation method provided with in-line all moving blade elastic wheel water turbine and in-line all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) aiming at multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward to make the selected lens (2d) longer from the existing materials and increase the power output An energy conservation cycle combined engine of a power generation method provided with a series all moving blade impact vehicle water turbine and a series all moving blade impact vehicle gas turbine equipped with a loss reduction means (3) in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction to accelerate vertically downward to increase power output by making the selected lens (2d) longer from existing materials An energy conservation cycle combined engine of a power generation method provided with a series loss moving wheel water turbine and a series full swing oil ball gas turbine provided in multiple stages equipped with friction loss reducing means (3).
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum Friction loss reduction means aiming at increasing the amount of concentrated power generation by accelerating sunlight to the water (52b) tube from the existing lens cross section by accelerating vertically downward by adding vaporization explosion power + gravitational acceleration in the inside Various energy preservation cycle combination engines of the power generation method which provided in-series all the bucket moving wheel water turbine and the series all bucket moving wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in a vacuum, accelerated vertically downward to select sunlight from the existing lens cross section with selected cross section long lens (2 d) Various energy conservation cycle combined engines of the power generation method provided with in-line all moving blade water turbine water turbine and in-line all moving blade elastic wheel gas turbine equipped with friction loss reducing means (3) aiming at increase.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add the vaporization explosion power + gravity acceleration in a vacuum + accelerate vertically downward to select the water from the existing lens cross section and select sunlight from the cross section lens (2 d) (52b) Various energy storage cycle coalescing engines of a power generation method provided with in-line all moving blade water turbine and in-line all moving blade gas turbine in multiple stages equipped with friction loss reducing means (3) aiming to increase concentrated electric power generation in a pipe .
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section lens (2 d) water (52 b) Various energy conservation cycle combined engines of the power generation method provided with a series all blade impact ball water turbine and a series all blade impact ball gas turbine in multiple stages equipped with friction loss reduction means (3) aiming at increase of concentrated power generation amount in a pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) with + fuel injection combustion + add the vaporization explosion power + gravity acceleration in vacuum in a vertical direction and accelerate vertically downward to select sunlight from the existing lens cross section with the selected cross section lens (2d) water (52 b) (4) Various energy storage cycle coalescing engines of a power generation method in which a series all moving blade water turbine water turbine and a series all moving blade elastic vehicle gas turbine are provided in multiple stages equipped with friction loss reducing means (3) aiming at increase of concentrated power generation in a pipe.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic power generation with compression heat recovery (2C) Superheated steam thermal energy (52d) production method + storage battery drive various ships to make a great deal + solar heater (2) internal air compression heat recovery + vacuum A means to reduce friction loss to increase power generation by maintaining the adiabatic long lens (2d) and the solar light at right angles by accelerating the vaporization explosion power + gravity acceleration downward in the vertical direction and keeping the vacuum close to the vacuum. 3) Various energy conservation cycle combined engines of power generation method provided with in-line all moving blade impacting wheel water turbine and in-line all moving blade impacting wheel gas turbine in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theory Best engine Hydro-aero-power Photovoltaic generation Compressed heat recovery system (2C) Superheated steam thermal energy (52d) production method + storage battery drive Various ships to be made full + solar heater (2) Heat pump inside air (28a) In (1G) compression heat recovery + addition of vaporization explosion power + gravitational acceleration in vacuum, vertically accelerated downward to maintain the adiabatic long lens (2d) and sunlight in the vicinity of a right angle in the part close to the vacuum Various energy storage cycle coalescing engines of a power generation method provided with a series all blade impact vehicle water turbine and a series all blade impact vehicle gas turbine provided in multiple stages equipped with friction loss reduction means (3) aiming at an increase in amount.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-power photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporizing explosion power + gravitational acceleration in vacuum + accelerate vertically downwards, adiabatic long lens (2d) and sunlight in the part close to vacuum The energy saving cycle combination of the power generation method in which the series all blade impact wheel water turbine and the series all blade impact wheel gas turbine are provided in multiple stages equipped with friction loss reduction means (3) aiming at increasing the power generation amount by maintaining organ.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aero-thermal power PV compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make them live + solar heater (2) (2b) internal air heat compression Heat the water (52b) with the heat of air (28b) + add the vaporization explosion power + gravitational acceleration in the vacuum + accelerate vertically downward, and in the part close to the vacuum, the adiabatic long lens (2d) and the sun light near the right angle Various energy conservation cycle combined engines of the power generation method provided with a series all moving blade water turbine water turbine and a series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by maintaining in multiple stages.
理論最良エンジン水力空気力太陽光発電圧縮熱回収器(2C)による過熱蒸気温熱(52d)製造方法+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。
Theoretical best engine Hydro-aerodynamic photovoltaic generation compression heat recovery (2C) superheated steam thermal (52d) production method + storage battery drive various ships to make up + solar heater (2) (2b) compressed air heat (28b Heat the water (52b) in + + Fuel injection combustion + Vaporize explosive power + add gravity acceleration in vacuum Vertically accelerate vertically downward to make the adiabatic long lens (2d) and the sun light at right angle in the part close to the vacuum Various energy preservation cycle combined engines of the power generation method provided with a series all moving blade water turbine water turbine and a series all moving blade elastic vehicle gas turbine equipped with friction loss reducing means (3) to maintain power generation amount increase in the vicinity.